Modern university for Technology & Information
MTI Faculty of Engineering
Faculty of Engineering Curricula
Modern University for Technology & Information – Faculty of Engineering
Page 1
Faculty of Engineering Departments 1. Construction Project Management 2. Construction Engineering Architecture 3. Mechatronics Engineering 4. Production Engineering 5. Communication Engineering 6. Bio Electronics Engineering 7. Control Engineering 8. Computer Engineering 9. Architecture Engineering
Modern University for Technology & Information – Faculty of Engineering
Page 2
Preparatory Phase (Minimum 35 credits and one summer training course) 1. Basic Subjects :( Compulsory 30 credits ) Code
Course title
MATH 101
Mathematics (I)
MATH 102
Mathematics (II)
BENG 103
Pre. Req. Credits Lec.
Ex. Lab.
3
2
2
-
3
2
2
-
Mechanics (I)
3
2
2
-
BENG 104
Mechanics (II)
3
2
2
-
BENG 105
Production Engineering (I)
3
2
-
4
CHM
106
Chemistry (I)
3
2
2
1
PHY
107
Physics (I)
3
2
2
1
PHY
108
Physics (II)
3
2
2
1
COMP
109
Introduction to Computer Programming
2
1
1
2
BENG
110
Engineering Drawing (I)
2
1
-
3
BENG
111
Engineering Drawing (II)
2
1
-
3
MATH 101
BENG 110
2. Basic Subjects :( Elective 2 credits ) Code CHM
Course title 112
Pre. Req.
Credits Lec.
Ex. Lab.
Chemistry (II)
CHM 106
2
1
1
2
COMP 113
Computer Programming
COMP 109
2
1
1
2
BENG 114
Production Engineering (II)
BENG 105
2
1
2
2
Modern University for Technology & Information – Faculty of Engineering
Page 3
3. Humanity& Language Courses :( Compulsory 4 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
HUM 115
History of Engineering
2
2
-
-
LNG 116
Technical English (I)
2
2
-
-
LNG 117
Technical English (II)
2
2
-
-
LNG 116
4. Summer Training: ( One complete training period – 5 credits ) Code STR (I)
Course title
Pre. Req.
Computer& workshop skills
Modern University for Technology & Information – Faculty of Engineering
Credits Lec. 5
-
Ex. Lab. -
Page 4
60
B.Sc. In Civil Engineering (Basic phase) (Construction & Construction Management Engineering)
(Minimum 70 credits and two summer training course) 1. Basic Subjects :( Compulsory 60 credits ) Code
Course title
CENG 201
Engineering Graphics
CENG 202
Introduction to Civil Eng.
CENG 203
Mathematics (III)
CENG 204
Mathematics (IV)
CENG 205
Pre. Req. Credits Lec. BENG 111
Ex. Lab.
3
1
4
-
3
2
1
2
MATH 102
3
2
2
-
CENG 203
3
2
2
-
Properties & Receptivity of Materials I
3
2
1
2
CENG 206
Strength of Material & Structure
3
2
2
-
CENG 207
Civil Engineering Mechanics
3
2
2
-
CENG 208
Surveying (I)
4
2
3
2
CENG 209
Surveying (II)
CENG 208
3
2
1
2
CENG 210
Geotechnical Engineering (I)
CENG 205
4
2
3
2
CENG 211
Fluid Mechanics
3
2
2
1
CENG 212
Hydraulics
CENG 211
3
2
2
1
CENG 213
Computer Application (I)
CENG 201
2
1
1
2
CENG 214
Computer Application (II)
CENG 216
2
1
1
2
CENG 215
Structural Analysis
CENG 206
3
2
2
-
CENG 216
Structural Design (I)
CENG 215
3
2
2
-
CENG 217
Reinforced Concrete Design
CENG 216
4
3
2
1
CENG 218
Structural Design (II)
CENG 216
3
2
2
-
CENG 219
Hydrology
CENG 212
2
2
1
-
CENG 220
Building Technology
BENG 111
3
2
2
-
BENG 104
Modern University for Technology & Information – Faculty of Engineering
Page 5
2. Basic Subjects :( Elective 6 credits ) Code
Course title
CENG 221
Properties & Receptivity of Materials II
CENG 222
Mechanical Engineering
CENG 223
Electrical Engineering
CENG 224
Civil Engineering Technology
CENG 225
Building Equipment
Pre. Req. Credits Lec.
Ex. Lab.
3
2
2
-
3
2
1
-
PHY 108
2
2
1
-
CENG 202
3
2
1
-
3
2
1
-
CENG 205
3. Humanity& Language Courses :( Compulsory 4 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
CENG 226
Communication in Civil Engineering.
2
2
-
-
CENG 227
Technical Report Writing
2
2
-
-
CENG 228
Foundation of rational thoughts
2
2
-
-
CENG 229
Engineering Geology
2
2
1
-
CENG 230
Engineering Economics
2
2
1
-
4. Summer Training: ( Two complete training period – 10 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
STR (II)
Field Training
STR (I)
5
-
-
60
STR (III)
Practical Training
STR (II)
5
-
-
60
Modern University for Technology & Information – Faculty of Engineering
Page 6
B.Sc. In Civil Engineering (Specialized phase) (Construction Project Management Engineering)
(Minimum 65 credits and one summer training course) 1. Specialized Engineering Courses :( Compulsory 50 credits ) Code
Course title
CEM 301
Construction Unit Operation
CEM 302
Geotechnical Engineering (II)
CEM 303
Pre. Req. Credits Lec.
Ex. Lab.
2
2
1
-
3
2
1
2
Municipal Engineering
3
2
2
-
CEM 304
Public works construction I
3
2
2
-
CEM 305
Sanitary Waste water Systems
3
2
2
-
CEM 306
Quantities and specification
3
2
2
-
CEM 307
Foundation Design
CEM 302
3
2
2
-
CEM 308
Advanced Reinforced Concrete Design
CENG 217
4
2
2
3
CEM 309
Decision making & project planning
3
2
2
-
CEM 310
Structural Steel Design I
4
2
2
-
CEM 311
Quality control
3
2
2
-
CEM 312
Structural Steel Design II
4
3
2
-
CEM 313
Projects planning & analysis
3
2
2
-
CEM 314
Cost management & accounting
3
2
2
-
CEM 315
Construction management
3
2
2
-
CEM 316
Public works construction II
3
2
2
-
CENG 210
CEM 303
CENG 218
CEM 310
CEM 304
Modern University for Technology & Information – Faculty of Engineering
Page 7
2. Specialized Engineering Courses :( Elective 3 credits ) Code
Course title
CEM 317
Numerical Analysis
CEM 318
Pre. Req. Credits Lec. CENG 204
Ex. Lab.
3
2
2
-
Fire and Explosion project protection
3
2
2
-
CEM 319
Urban Projects Environmental Assessment
3
2
2
-
CEM 320
Micro/Macro problems issue
3
2
2
-
CEM 321
Environmental Architecture
3
2
2
-
CEM 322
Hospitals construction Management
3
2
2
-
CEM 323
Health & Industrial Safety
2
2
1
-
CEM 324
Matrix analysis & Structure
3
2
2
-
CEM 325
Architecture and Civil Projects pollution
3
2
2
-
CEM 326
Work and time study
3
2
2
-
CEM 327
Facility planning and control
3
2
2
-
CENG 218
3. B.Sc Projects :( Compulsory 8 credits ) Code
Course title
CEM 328
B.Sc. Project Premium
CEM 329
B.Sc. Project
Pre. Req.
CEM 328
Credits Lec.
Ex. Lab.
3
-
4
-
5
1
3
8
4. Humanity& Language Courses :( Compulsory 4 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
CEM 330
History of the build Environment
2
2
-
-
CEM 331
Legislations in Civil Engineering
2
2
-
-
CEM 332
Feasibility studies
2
2
-
-
5. Summer Training: ( One complete training period – 5 credits ) Code STR (IV)
Course title Field & Practical Training
Pre. Req. STR (III)
Modern University for Technology & Information – Faculty of Engineering
Credits Lec. 5
-
Ex. Lab. -
Page 8
60
B.Sc. In Civil Engineering (Specialized phase) (Construction Engineering)
(Minimum 65 credits and one summer training course) 1. Specialized Engineering Courses :( Compulsory 47 credits ) Code
Course title
CENG 301
Geotechnical Engineering (II)
CENG 302
Transportation Engineering
CENG 303
Structural Steel Design (I)
CENG 304
Foundation Design
CENG 305
Highway Engineering
CENG 306
Advanced Reinforced Concrete (I)
CENG 307
Pre. Req. Credits Lec. CENG 210
Ex. Lab.
3
2
2
1
3
2
2
-
CENG 218
3
2
2
-
CENG 301
3
2
2
-
3
2
2
-
CENG 217
3
2
2
1
Advanced Design (I) Reinforced Concrete (II)
CENG 306
3
2
2
1
CENG 308
Sanitary Waste water Systems Design (II)
CENG 317
3
2
2
-
CENG 309
Structural Steel Design (II)
CENG 303
3
2
2
-
CENG 310
Roads & Runways Design
3
2
2
-
CENG 311
Municipal Engineering
3
2
2
-
CENG 312
Structure Steel Design (III)
CENG 218
3
2
2
-
CENG 313
Structure Steel Design (IV)
CENG 309
3
2
2
-
CENG 314
Quantities and specifications
3
2
2
-
CENG 315
Tunnels and underground structures
3
2
2
-
CENG 316
Construction management
2
2
1
-
CENG 301
Structures Modern University for Technology & Information – Faculty of Engineering
Page 9
2. Specialized Engineering Courses :( Elective 6 credits ) Code
Course title
Pre. Req.
Credits
Lec. Ex. Lab.
CENG 317
Environmental Engineering
3
2
2
-
CENG 318
Decision Making in Urban
3
2
2
-
CENG 319
Civil Planning & Housing
3
2
2
-
CENG 320
Town Planning Environment
3
2
2
-
CENG 321
Numerical Analysis
3
2
2
-
CENG 322
Quality Control
3
2
2
-
CENG 323
Water Engineering
3
2
2
-
CENG 204
CENG 219
3. B.Sc Projects :( Compulsory 8 credits ) Code
Course title
CENG 324
B.Sc. Project Premium
CENG 325
B.Sc. Project
Pre. Req.
CENG 324
Credits Lec.
Ex. Lab.
3
-
4
-
5
1
3
8
4. Humanity& Language Courses :( Compulsory 4 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
CENG 326
History of the build Environment
2
2
-
-
CENG 327
Legislations in Civil Engineering
2
2
-
-
CENG 328
Feasibility studies
2
2
-
-
5. Summer Training: ( One complete training period – 5 credits ) Code STR (IV)
Course title Field & Practical Training
Pre. Req. STR (III)
Modern University for Technology & Information – Faculty of Engineering
Credits Lec. 5
-
Ex. Lab. -
Page 10
60
B.Sc. In Mechanical Engineering (Basic phase) (Mechatronics & production Engineering)
(Minimum 70 credits and two summer training course) 1. Basic Subjects :( Compulsory 56 credits ) Code
Course title
Pre. Req. Credits Lec.
MENG 201
Mechanical Drawing
BENG 111
3
1
MENG 202
Machine Construction
MENG 201
3
MENG 203
Production Engineering (III)
BENG 114
MENG 204
Engineering Mechanics & Theory of Machines
BENG 104
MENG 205
Ex. Lab . 4
-
1
4
-
3
2
2
-
3
2
2
-
Thermodynamics
4
2
2
3
MENG 206
Strength of Material
3
2
1
2
MENG 207
Metallurgy
3
2
1
2
MENG 208
Mathematics (III)
MATH 102
3
2
2
-
MENG 209
Mathematics (IV)
MENG 208
3
2
2
-
MENG 210
Stress Analysis
MENG 206
3
2
2
-
MENG 211
Fluid Mechanics
4
2
3
2
MENG 212
Mechanical Element Design
MENG 202
3
2
3
-
MENG 213
Fluid Power Systems
MENG 211
3
2
1
2
MENG 214
Electrical Engineering Fundamentals & Circuits PHY 108
3
2
1
2
MENG 215
Computer Applications (I)
MENG 201
3
1
1
2
MENG 216
Electronic Devices & Circuits
MENG 214
3
2
1
2
MENG 217
Metrology and Measurements
3
2
1
2
MENG 218
Civil Engineering
3
2
1
2
Modern University for Technology & Information – Faculty of Engineering
Page 11
2. Basic Subjects :( Elective 10 credits ) Code
Course title
MENG 219
Thermodynamics & Energy Systems
MENG 220
Composite Material
MENG 221
Computer Applications (II)
MENG 222
Pre. Req.
Credits Lec.
MENG 205
Ex. Lab.
4
2
2
2
3
2
-
3
3
2
-
2
Heat Transfer & Industrial Furnaces
3
2
2
1
MENG 223
Material & Process Selection
3
2
1
2
MENG 224
Properties & Testing of Material
3
2
2
3
COMP 109
3. Humanity& Language Courses :( Compulsory 4 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
MENG 225
Technical Report Writing
2
2
-
-
MENG 226
Technical Legislations
2
2
-
-
MENG 227
Engineering Economics
2
2
-
-
MENG 228
Technology & Social Change
2
2
-
-
4. Summer Training: ( Two complete training period – 10 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
STR (II)
Field general training
STR (I)
5
-
-
60
STR (III)
Factories & Practical training
STR (II)
5
-
-
60
Modern University for Technology & Information – Faculty of Engineering
Page 12
B.Sc. In Mechanical Engineering (Specialized phase) (Mechatronics Engineering)
(Minimum 65 credits and one summer training course) 1. Specialized Engineering Courses :( Compulsory 44 credits ) Code
Course title
MENG 301
System Dynamics & Vibration
MENG 302
Mechanical System Design
MENG 303
Computer Aided Design
MENG 304
Pre. Req. Credits Lec.
Ex. Lab.
3
2
2
-
MENG 212
4
2
4
-
MENG 302
3
2
1
2
Computer Aided Manufacturing
3
2
2
-
MENG 305
Mechatronics (I)
3
2
2
-
MENG 306
Simulation of Industrial Systems
MENG 301
3
2
MENG 307
Programmable Logic Controllers
MENG 310
3
2
-
3
MENG 308
Robot Technology
3
2
2
-
MENG 309
Digital Signal Processing
MENG 209
3
2
2
-
MENG 310
Logic Circuits
MENG216
3
2
2
-
MENG 311
Automatic Control
MENG 209
3
2
2
-
MENG 312
Process Control & Automation
MENG 311
4
2
2
3
MENG 313
Mechatronics (II)
MENG 310
3
2
1
2
MENG 314
Computer Integrated Manufacturing
MENG 304
3
2
1
2
Modern University for Technology & Information – Faculty of Engineering
-
Page 13
2. Specialized Engineering Courses :( Elective 9 credits ) Code
Pre. Req. Credits Lec.
Course title
Ex. Lab.
MENG 315
Hydraulic Machines
MENG 213
3
2
-
2
MENG 316
Control using fluid power
MENG 213
3
2
1
2
MENG 317
Maintenance Planning
3
2
2
-
MENG 318
Internal Combustion Engines
3
2
1
2
MENG 319
Refrigeration & Air Condition
3
2
1
2
MENG 219
3. B.Sc Projects :( Compulsory 8 credits ) Code
Course title
Pre. Req.
MENG 320 B.Sc. Project Premium MENG 321
B.Sc. Project
MENG 320
Credits Lec.
Ex. Lab.
3
-
4
-
5
1
3
8
4. Humanity& Language Courses :( Compulsory 4 credits ) Code
Course title
MENG 322
Feasibility studies
MENG 323 MENG 324
Pre. Req. Credits Lec Ex. Lab . . 2
2
-
-
Environmental Management & Legislations
2
2
-
-
Industrial Psychology
2
2
-
-
5. Summer Training: ( One complete training period – 5 credits ) Code STR (IV)
Course title Field training
Pre. Req. STR (III)
Modern University for Technology & Information – Faculty of Engineering
Credits Lec. 5
-
Ex. Lab. -
Page 14
60
B.Sc. In Mechanical Engineering (Specialized phase) (Production Engineering)
(Minimum 65 credits and one summer training course) 1. Specialized Engineering Courses :( Compulsory 44 credits ) Code
Course title
PENG 301
System Dynamics & Vibration
PENG 302
Mechanical System Design
PENG 303
Pre. Req. Credits Lec.
Ex.
Lab.
3
2
2
-
MENG 212
4
2
4
-
Computer Aided Design & Manufacturing
PENG 302
3
2
1
2
PENG 304
Design of production machines
PENG 302
3
2
2
-
PENG 305
Die Design
4
2
4
-
PENG 306
Design of Jigs & Fixtures
4
2
4
-
PENG 307
Heat and Surface Treatment
4
2
2
3
PENG 308
Industrial Management
3
2
2
-
PENG 309
Computer Aided Product Design
3
2
-
3
PENG 310
Factory Planning & organization
4
2
2
2
PENG 311
Automatic Control
3
2
2
-
PENG 312
Quality Control
3
2
2
-
PENG 313
Digital Signal Processing
3
2
2
-
MENG 207
PENG 302
MENG 209
MENG 209
Modern University for Technology & Information – Faculty of Engineering
Page 15
2. Specialized Engineering Courses :( Elective 9 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex.
Lab.
PENG 314
Metal Cutting Theory & Design
BENG 114
3
2
1
2
PENG 315
Metal Forming Theory & Design
MENG 203
3
2
1
2
PENG 316
Simulation of Industrial Systems
PENG 301
3
2
2
-
PENG 317
Material Design
MENG 207
3
2
-
2
PENG 318
Technology of Plastics
3
2
-
3
PENG 319
Powder Metallurgy
3
2
2
-
PENG 320
Mechanics of Fracture
3
2
2
-
3. B.Sc Projects :( Compulsory 8 credits ) Code
Course title
PENG 321
B.Sc. Project Premium
PENG 322
B.Sc. Project
Pre. Req.
PENG 321
Credits Lec.
Ex. Lab.
3
-
4
-
5
1
3
8
4. Humanity& Language Courses :( Compulsory 4 credits ) Code
Course title
PENG 323
Feasibility studies
PENG 324 PENG 325
Pre. Req. Credits Lec Ex. Lab . . 2
2
-
-
Environmental Management & Legislations
2
2
-
-
Industrial Psychology
2
2
-
-
5. Summer Training: ( One complete training period – 5 credits ) Code STR (IV)
Course title Field training
Pre. Req. STR (III)
Modern University for Technology & Information – Faculty of Engineering
Credits Lec. 5
-
Ex. Lab. -
Page 16
60
B.Sc. In Electrical Engineering (Basic phase) (Communications Engineering)
(Minimum 70 credits and two summer training course) 1. Basic Subjects :( Compulsory 52 credits ) Code
Course title
Pre. Req. Credits Lec.
Ex. Lab.
ELTE 201
Mathematics (III)
MATH 102
3
2
2
-
ELTE 202
Mathematics (IV)
ELTE 201
3
2
2
-
ELTE 203
Mathematics (V)
ELTE 202
3
2
2
-
ELTE 204
Engineering Mechanics
BENG 104
3
2
2
1
ELTE 205
Digital Systems
3
2
1
2
ELTE 206
Logic Circuits
ELTE 205
3
2
1
2
ELTE 207
Electromagnetic Fields
PHY 108
3
2
1
2
ELTE 208
Digital Signal Processing
ELTE 202
3
2
1
2
ELTE 209
Electrical circuits
PHY 108
3
2
2
2
ELTE 210
Solid state Electronic circuits
ELTE 209
4
2
3
2
ELTE 211
Electric Engineering Testing
ELTE 209
3
2
1
2
ELTE 212
Computer Application
3
2
1
2
ELTE 213
Electronic Engineering
ELTE 210
3
2
1
2
ELTE 214
Communication Systems (I)
ELTE 202
3
2
1
2
ELTE 215
Communication Systems (II)
ELTE 214
3
2
1
2
ELTE 216
Electromagnetic Principles
ELTE 207
3
2
1
2
ELTE 217
Electronic Circuits
ELTE 213
3
2
1
2
Modern University for Technology & Information – Faculty of Engineering
Page 17
2. Basic Subjects :( Elective 14 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
ELTE 218
Electronic Engineering Testing
ELTE 210
2
1
1
2
ELTE 219
Computer Organization
ELTE 206
3
2
1
2
ELTE 220
Civil Engineering
3
2
1
2
ELTE 221
Analogue & Digital Circuit Design
ELTE 217
3
2
1
2
ELTE 222
Theory of Machines & Design
BENG 104
4
3
2
-
ELTE 223
Manufacture Technology
BENG 105
3
2
1
2
ELTE 224
System Dynamics & Control Component Instrumentations
3
2
1
2
3
2
1
2
ELTE 225
ELTE 211
3. Humanity& Language Courses :( Compulsory 4 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
ELTE 226
Technical Report Writing
2
2
-
-
ELTE 227
Legislations
2
2
-
-
ELTE 228
Industrial Psychology
2
2
-
-
4. Summer Training: ( Two complete training period – 10 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
STR (II)
Field general training
STR (I)
5
-
-
60
STR (III)
Factories & Practical training
STR (II)
5
-
-
60
Modern University for Technology & Information – Faculty of Engineering
Page 18
B.Sc. In Electrical Engineering (Specialized phase) (Communications Engineering)
(Minimum 65 credits and one summer training course) 1. Specialized Engineering Courses :( Compulsory 47 credits ) Code
Course title
Pre. Req. Credits Lec.
Ex. Lab.
ELTE 301
Data Base Management
2
1
-
3
ELTE 302
Electric Power & Machines
3
2
1
2
ELTE 303
Micro processor Systems
ELTE 214
3
2
1
2
ELTE 304
Control Systems (I)
ELTE 202
3
2
1
2
ELTE 305
Control Systems (II)
ELTE 304
3
2
1
2
ELTE 306
Electromagnetic Waves
ELTE 216
3
2
1
2
ELTE 307
Optical electronics
ELTE 313
3
2
1
2
ELTE 308
Microwaves Electronic Engineering
ELTE 306
3
2
1
2
ELTE 309
Integrated Circuits
ELTE 217
3
2
1
2
ELTE 310
Antennas & Waves Propagation
ELTE 308
3
2
1
2
ELTE 311
Communication Networks
ELTE 312
3
2
1
2
ELTE 312
Digital Communications
ELTE 215
3
2
1
2
ELTE 313
Optical Communication systems
ELTE 307
3
2
2
-
ELTE 314
Satellite Communications
3
2
1
2
ELTE 315
Mobile Phones Systems
3
2
2
-
ELTE 316
Radar Engineering Systems
3
2
2
-
Modern University for Technology & Information – Faculty of Engineering
Page 19
2. Specialized Engineering Courses :( Elective 6 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex.
Lab.
ELTE 317
Advanced Automatic Control
ELTE 305
3
2
1
2
ELTE 318
Industrial Electronics
ELTE 217
3
2
1
2
ELTE 319
Robot systems and Technology
3
2
1
2
ELTE 320
Neuro Networks
3
2
2
-
ELTE 321
Expert Systems
3
2
2
-
ELTE 322
Artificial Intelligence
3
2
2
-
ELTE 323
Programmable Logic Controller
3
2
2
-
ELTE 206
3. B.Sc Projects :( Compulsory 8 credits ) Code
Course title
ELTE 324
B.Sc. Project Premium
ELTE 325
B.Sc. Project
Pre. Req.
ELTE 324
Credits Lec.
Ex. Lab.
3
-
4
-
5
1
3
8
4. Humanity& Language Courses :( Compulsory 4 credits ) Code
Pre. Req. Credits Lec Ex. Lab . .
Course title
ELTE 326
Engineering Economics
2
2
1
-
ELTE 327
Feasibility Studies
2
2
-
-
ELTE 328
Environmental Impact of Communication Systems
2
2
-
-
5. Summer Training: ( One complete training period – 5 credits ) Code STR (IV)
Course title Field training
Pre. Req. STR (III)
Modern University for Technology & Information – Faculty of Engineering
Credits Lec. 5
-
Ex. Lab. -
Page 20
60
B.Sc. In Electrical Engineering (Basic phase) (Bio-Electronics Engineering)
(Minimum 70 credits and two summer training course) 1. Basic Subjects :( Compulsory 55 credits ) Code
Course title
Pre. Req. Credits Lec.
Ex. Lab.
BIO 201
Mathematics (III)
MATH 102
3
2
2
-
BIO 202
Mathematics (IV)
BIO 201
3
2
2
-
BIO 203
Mathematics (V)
BIO 202
3
2
2
-
BIO 204
Engineering Mechanics
BENG 104
3
2
2
1
BIO 205
Engineering Design (I)
3
2
2
-
BIO 206
Engineering Design (II)
3
2
2
-
BIO 207
Strength of Materials
3
2
1
2
BIO 208
Production Engineering (III)
BENG 105
3
2
2
1
BIO 209
Electrical circuits
PHY 108
3
2
2
1
BIO 210
Solid State Electronic circuits
BIO 209
3
2
2
1
BIO 211
Instrumentations
3
2
2
1
BIO 212
Computer Application
3
2
-
2
BIO 213
Thermodynamics
3
2
2
1
BIO 214
Fluid Mechanics
3
2
2
1
BIO 215
Anatomy and Physiology
4
2
2
2
BIO 216
Bio Electronics Engineering
3
2
2
1
BIO 217
Imaging Technology
3
2
2
-
BIO 218
Waves & Radiating Systems
3
2
2
-
BIO 205
Modern University for Technology & Information – Faculty of Engineering
Page 21
2. Basic Subjects :( Elective 11 credits ) Code
Course title
BIO 219
Micro-Computing Engineering
BIO 220
Electrical Drives System
BIO 221
Bio- Medical Engineering
BIO 222
Civil Engineering
BIO 223
Stress Analysis for human body
BIO 224
Pre. Req.
Credits Lec.
BIO 212
Ex. Lab.
3
2
-
3
3
2
-
3
3
2
2
1
3
2
1
2
3
2
2
-
System Dynamics for human body
3
2
2
-
BIO 225
Logic Circuits
3
2
1
3
BIO 226
Digital Signal Processing
3
2
1
3
BIO 216
BIO 207
3. Humanity& Language Courses :( Compulsory 4 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
BIO 227
Technical Report Writing
2
2
-
-
BIO 228
Legislations
2
2
-
-
BIO 229
Projects Evaluation
2
2
-
-
4. Summer Training: ( Two complete training period – 10 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
STR (II)
Field general training
STR (I)
5
-
-
60
STR (III)
Factories & Practical training
STR (II)
5
-
-
60
Modern University for Technology & Information – Faculty of Engineering
Page 22
B.Sc. In Electrical Engineering (Specialized phase) (Bio-Electronics Engineering)
(Minimum 65 credits and one summer training course) 1. Specialized Engineering Courses :( Compulsory 50 credits ) Code
Course title
BIO 301
Bio Informatics
BIO 302
Microwaves Circuits and Equipment
BIO 303
Pre. Req. Credits Lec.
Ex. Lab.
3
2
-
3
3
2
1
2
Medical Laboratory Science & Methods
3
2
-
3
BIO 304
Power Electronics
2
1
-
3
BIO 305
CAD of Signals & Systems
3
2
2
-
BIO 306
Modeling of Electrical Machines
3
2
2
-
BIO 307
Data base Management
3
2
2
-
BIO 308
Clinical Engineering
3
2
2
-
BIO 309
Bio-Mechanics Systems
3
2
2
-
BIO 310
Medical Gases System Design
3
2
2
-
BIO 311
Bio Materials
2
1
2
-
BIO 312
Automatic Control
2
1
1
2
BIO 313
Electronic Vision
3
2
2
-
BIO 314
Medical Instrumentation
3
2
2
-
BIO 315
Nuclear & Radio Equipments
3
2
2
-
BIO 316
Sterilization Techniques
2
1
2
BIO 317
Physiotherapy Equipment
3
1
2
3
BIO 318
TQM in Health Care
3
2
2
-
BIO 218
BIO 221
BIO 202
Modern University for Technology & Information – Faculty of Engineering
Page 23
2. Specialized Engineering Courses :( Elective 3 credits ) Code
Pre. Req. Credits Lec.
Course title
Ex.
Lab.
BIO 319
Micro Processor Control
3
2
2
-
BIO 320
Micro controllers
2
1
2
-
BIO 321
Inventory Control
2
2
1
-
BIO 322
Fault Diagnosis
2
1
2
-
BIO 323
Refrigeration & Air-Condition
2
1
1
2
BIO 324
Robot Technology & Medical Care
3
2
2
-
BIO 325
Real time Operation
3
2
2
-
BIO 326
Medical Space Planning
3
2
2
-
BIO 327
Parametric Estimations Systems Identification
2
1
2
-
BIO 328
Artificial Intelligence & Expert Systems
3
2
2
-
BIO 329
Maintenance Planning Of Hospitals
2
1
2
-
3. B.Sc Projects :( Compulsory 8 credits ) Code
Course title
BIO 330
B.Sc. Project Premium
BIO 331
B.Sc. Project
Credits Lec.
Pre. Req.
BIO 330
Ex. Lab.
3
-
4
-
5
1
3
8
4. Humanity& Language Courses :( Compulsory 4 credits ) Code
Course title
Pre. Req.
Credits
Lec.
BIO 332
Management & Health Care
2
2
BIO 333
Industrial Psychology
2
BIO 334
Feasibility Study
2
Ex. Lab . -
-
2
-
-
2
-
-
5. Summer Training: ( One complete training period – 5 credits ) Code STR (IV)
Course title Field training
Pre. Req. STR (III)
Modern University for Technology & Information – Faculty of Engineering
Credits Lec. 5
-
Ex. Lab. Page 24
60
B.Sc. In Electrical Engineering (Basic phase) (Control Engineering)
(Minimum 70 credits and two summer training course) 1. Basic Subjects :( Compulsory 49 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
CONT 201
Mathematics (III)
MATH 102
3
2
2
-
CONT 202
Mathematics (IV)
CONT 201
3
2
2
-
CONT 203
Mathematics (V)
CONT 202
3
2
2
-
CONT 204
Engineering Mechanics
BENG 104
3
2
2
1
CONT 205
Engineering Design (I)
BENG 111
3
2
2
-
CONT 206
Engineering Design (II)
CONT 205
3
2
2
-
CONT 207
Strength of Materials
3
2
1
2
CONT 208
Production Engineering (III)
BENG 105
3
2
2
-
CONT 209
Electrical circuits
PHY 108
4
2
2
2
CONT 210
Solid State Electronic circuits
CONT 209
4
2
2
2
CONT 211
Instrumentations
3
2
2
-
CONT 212
Computer Application
3
2
-
2
CONT 213
Thermodynamics
4
2
2
2
CONT 214
Fluid Mechanics
4
2
3
2
CONT 215
Micro-Computing Engineering
3
2
-
2
Modern University for Technology & Information – Faculty of Engineering
Page 25
2. Basic Subjects :( Elective 17 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
CONT 216
Numerical Analysis
CONT 203
3
2
2
-
CONT 217
Computer Programming (I )
COMP 113
3
2
2
3
CONT 218
Computer Programming (II)
CONT 217
3
2
2
3
CONT 219
Properties & Testing of Material
3
2
2
3
CONT 220
Civil Engineering
3
2
2
3
CONT 221
Digital &Electronic Circuits (I)
CONT 210
3
2
2
3
CONT 222
Engineering Application
CONT 209
3
2
4
-
CONT 223
Field Theory
3
2
2
-
CONT 224
Microelectronic (I)
CONT 210
3
2
1
3
CONT 225
Control Engineering (I)
CONT 202
4
2
2
3
CONT 226
Semi conductors Physics
CONT 210
3
2
2
-
3. Humanity& Language Courses :( Compulsory 4 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
CONT 227
Technical Reports Writing
2
2
-
-
CONT 228
Industrial Psychology
2
2
-
-
CONT 229
Ethics Studies
2
2
-
-
4. Summer Training: ( Two complete training period – 10 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
STR (II)
Field general training
STR (I)
5
-
-
60
STR (III)
Factories & Practical training
STR (II)
5
-
-
60
Modern University for Technology & Information – Faculty of Engineering
Page 26
B.Sc. In Electrical Engineering (Specialized phase) (Control Engineering)
(Minimum 65 credits and one summer training course) 1. Specialized Engineering Courses :( Compulsory 50 credits ) Code
Course title
CONT 301
Use of Microcomputers
CONT 302
Control Engineering (II)
CONT 303
Microelectronics (II)
CONT 304
Pre. Req.
Credits Lec.
Ex. Lab.
3
2
2
-
CONT 228
3
2
1
2
CONT 225
4
2
2
3
Electric machines & Power
3
2
1
2
CONT 305
Power Electronics (I)
3
2
1
2
CONT 306
Electronics Circuit Design
3
2
2
-
CONT 307
Microprocessors Based systems
3
2
2
-
CONT 308
Advanced Control Engineering
CONT 302
3
2
2
-
CONT 309
Electronic Instruments & Sensors
CONT 211
4
2
2
3
CONT 310
Digital Signal Processing
CONT 202
3
2
2
-
CONT 311
Digital Control
CONT 308
3
2
2
-
CONT 312
Modeling of Industrial Systems
CONT 316
3
2
2
-
CONT 313
Robot Engineering & control
3
2
2
-
CONT 314
Programmable Logic controller
CONT 221
3
2
2
-
CONT 315
Fluid power control systems
CONT 214
3
2
2
-
CONT 316
Systems Dynamics &Vibration
3
2
2
-
CONT 303
Modern University for Technology & Information – Faculty of Engineering
Page 27
2. Specialized Engineering Courses :( Elective 3 credits ) Code
Pre. Req. Credits Lec Ex. .
Course title
Lab.
CONT 317 Power Electronics (II)
CONT 305
3
2
2
-
CONT 318 Advanced Electronic Systems
CONT 303
3
2
2
-
CONT 319 Microwaves Principles
3
2
2
-
CONT 320 Parametric Estimations Systems Identification
2
1
2
-
3
2
2
-
3
2
2
-
CONT 321 Control of Industrial Systems
CONT 302
CONT 322 Systems Design and Analysis
3. B.Sc Projects :( Compulsory 8 credits ) Code
Course title
CONT 323
B.Sc. Project Premium
CONT 324
B.Sc. Project
Pre. Req.
CONT 323
Credits Lec.
Ex. Lab.
3
-
4
-
5
1
3
8
4. Humanity& Language Courses :( Compulsory 4 credits ) Code
Course title
Pre. Req. Credits
Lec.
CONT 325
Feasibility Studies
2
2
CONT 326
Accounting
2
CONT 327
Engineering Economics
2
Ex. Lab . -
-
2
-
-
2
-
-
5. Summer Training: ( One complete training period – 5 credits ) Code STR (IV)
Course title Field training
Pre. Req. STR (III)
Modern University for Technology & Information – Faculty of Engineering
Credits Lec. 5
-
Ex. Lab. -
Page 28
60
B.Sc. In Electrical Engineering (Basic phase) (Computer Engineering)
(Minimum 70 credits and two summer training course) 1. Basic Subjects :( Compulsory 60 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
COME 201
Mathematics (III)
MATH 102
3
2
2
-
COME 202
Mathematics (IV)
COME 201
3
2
2
-
COME 203
Mathematics (V)
COME 202
3
2
2
-
COME 204
Engineering Mechanics
BENG 104
3
2
2
1
COME 205
Digital Systems (I)
3
2
1
2
COME 206
Logic circuits
COME 205
3
2
1
2
COME 207
Computer Science (I)
COMP 109
3
2
1
2
COME 208
Computer Science (II)
COME 207
3
2
1
2
COME 209
Electrical Circuits
PHY 108
3
2
2
2
COME 210
Solid State Electronic Circuits
COME 209
4
2
2
2
COME 211
Instrumentations
3
2
1
2
COME 212
Computer Architecture (I)
4
2
2
2
COME 213
Electronic Engineering
COME 210
3
2
1
2
COME 214
Computer Architecture (II)
COME 212
4
2
2
2
COME 215
Digital System (II)
COME 205
3
2
1
2
COME 216
Data Structure
COME 215
3
2
2
-
COME 217
System Software (I)
COME 214
3
2
1
2
COME 218
System Software (II)
COME 217
3
2
1
2
COME 219
Advanced data structure
COME 216
3
2
2
-
Modern University for Technology & Information – Faculty of Engineering
Page 29
2. Basic Subjects :( Elective 6 credits ) Code
Course title
COME 220
Civil Engineering
COME 221
Theory of Machines & Design
COME 222
Manufacture Technology
COME 223 COME 224
Pre. Req.
Credits Lec.
Ex. Lab.
3
2
1
2
BENG 104
3
2
2
-
BENG 105
3
2
1
2
Communication Systems
3
2
1
2
Computer Numerical Methods
3
2
2
-
3. Humanity& Language Courses :( Compulsory 4 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
COME 225
Technical Report Writing
2
2
-
-
COME 226
Manufacturing Accounting
2
2
-
-
COME 227
Legislations
2
2
-
-
4. Summer Training: ( Two complete training period – 10 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
STR (II)
Field general training
STR (I)
5
-
-
60
STR (III)
Factories & Practical training
STR (II)
5
-
-
60
Modern University for Technology & Information – Faculty of Engineering
Page 30
B.Sc. In Electrical Engineering (Specialized phase) (Computer Engineering)
(Minimum 65 credits and one summer training course) 1. Specialized Engineering Courses :( Compulsory 46 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
COME 301
Computer Science & Data management
2
1
-
3
COME 302
Real time Operating Systems
3
2
2
-
COME 303
Control Systems (I)
3
2
1
2
COME 304
Electromagnetic field
2
2
2
-
COME 305
Signal Processing
3
2
1
2
COME 306
Microprocessor Based Systems
3
2
2
-
COME 307
Data Communication System
COME 223
3
2
2
-
COME 308
Communication Networks
COME 307
3
2
1
2
COME 309
Computer Organization
COME 214
3
2
2
-
COME 310
Database management Systems
COME 216
3
2
2
-
COME 311
Computer Networks
COME 308
3
2
2
-
COME 312
Computer Vision
3
2
2
-
COME 313
Image Processing
3
2
2
-
COME 314
Computer Security
3
2
2
-
COME 315
Information Systems
3
2
2
-
COME 316
Robot systems and Technology
3
2
1
2
COME 311
Modern University for Technology & Information – Faculty of Engineering
Page 31
2. Specialized Engineering Courses :( Elective 6 credits ) Code
Course title
Pre. Req. Credits Lec Ex. .
Lab.
3
2
2
-
3
2
1
2
3
2
1
2
COME 317
Communication in Industry
COME 318
Electric Power & Machines
COME 319
Control Systems (II)
COME 320
Neuro-Networks
3
2
2
-
COME 321
Computer Controlled Systems
3
2
2
-
COME 322
Engineering Systems Simulation
3
2
2
-
COME 323
Expert Systems
3
2
2
-
COME 324
Artificial Intelligence
3
2
2
-
COME 325
Advanced Automatic Control
3
2
1
2
COME 303
3. B.Sc Projects :( Compulsory 8 credits ) Code
Course title
Pre. Req.
COME 326 B.Sc. Project Premium COME 327
B.Sc. Project
COME 326
Credits Lec.
Ex. Lab.
3
-
4
-
5
1
3
8
4. Humanity& Language Courses :( Compulsory 4 credits ) Code
Course title
Pre. Req. Credits
Lec.
COME 328
Engineering Economics
2
2
COME 329
Environmental Impact of Projects
2
COME 330
Feasibility Studies
2
Ex. Lab . -
-
2
-
-
2
-
-
5. Summer Training: ( One complete training period – 5 credits ) Code STR (IV)
Course title Field training
Pre. Req. STR (III)
Modern University for Technology & Information – Faculty of Engineering
Credits Lec. 5
-
Ex. Lab. -
Page 32
60
B.Sc. In Architectural Engineering (Basic phase) (Architecture Engineering)
(Minimum 70 credits and two summer training course) 1. Basic Subjects :( Compulsory 54 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
ARCH 201
Fundamentals of Architecture Design
BENG 111
4
2
4
-
ARCH 202
Architecture Design (I)
ARCH 201
4
2
4
-
ARCH 203
Architecture Design (II)
ARCH 202
4
2
4
-
ARCH 204
Architecture Design (III)
ARCH 203
4
2
4
-
ARCH 205
Building Construction (I)
BENG 111
4
2
4
-
ARCH 206
Building Construction (II)
ARCH 205
4
2
4
-
ARCH 207
Building Construction (III)
ARCH 206
4
2
4
-
ARCH 208
Theory of Architecture(I)
2
2
-
-
ARCH 209
Theory of Architecture (II)
ARCH 208
2
2
-
-
ARCH 210
Theory of Architecture (III)
ARCH 209
2
2
-
-
ARCH 211
History of Architecture (I)
2
2
-
-
ARCH 212
History of Architecture (II)
ARCH 211
2
2
-
-
ARCH 213
History of Architecture (III)
ARCH 212
2
2
-
-
ARCH 214
Perspective and Sciography
3
2
2
-
ARCH 215
Visual Training (I)
2
-
4
-
ARCH 216
Theory of structure (I)
3
2
2
-
ARCH 217
Properties & Receptivity of Materials
2
1
2
1
ARCH 218
Surveying
2
1
1
2
ARCH 219
Modern Architecture
2
2
-
-
BENG 104
Modern University for Technology & Information – Faculty of Engineering
Page 33
2. Basic Subjects :( Elective 12 credits ) Code
Course title
ARCH 220
Mathematics (III)
ARCH 221
Preservation of civil & Environment
ARCH 222
Environmental Control
ARCH 223
Pre. Req.
Credits Lec.
MATH 102
Ex. Lab.
2
1
2
-
2
2
-
-
ARCH 202
2
2
-
-
Climate & Architecture Design
ARCH 222
3
2
2
-
ARCH 224
Computer Application (I)
ARCH 201
3
2
1
2
ARCH 225
Operation Research
2
1
2
ARCH 226
Numerical Methods
2
1
2
-
ARCH 227
Statistics Methods
2
1
2
-
ARCH 228
Building Construction (IV)
3
2
2
-
ARCH 207
3. Humanity& Language Courses :( Compulsory 4 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
ARCH 229
Technical Reports Writing
2
2
-
-
ARCH 230
Industrial Psychology
2
2
-
-
ARCH 231
Ethics Studies
2
2
-
-
ARCH 232
Visual Training (II)
2
-
4
-
4. Summer Training: ( Two complete training period – 10 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
STR (II)
Field general training
STR (I)
5
-
-
60
STR (III)
Factories & Practical training
STR (II)
5
-
-
60
Modern University for Technology & Information – Faculty of Engineering
Page 34
B.Sc. In Architectural Engineering (Specialized phase) (Architecture Engineering)
(Minimum 65 credits and one summer training course) 1. Specialized Engineering Courses :( Compulsory 40 credits ) Code
Course title
Pre. Req.
Credits Lec.
Ex. Lab.
ARCH 301
Architecture Design (IV)
ARCH 204
4
2
4
-
ARCH 302
Working Drawings (I)
ARCH 207
4
2
4
-
ARCH 303
Working Drawings (II)
ARCH 302
4
2
4
-
ARCH 304
Technological Installation For buildings
2
1
2
-
ARCH 305
Technical Sanitary Installations buildings
2
1
2
-
ARCH 306
Theory of Architecture ( IV)
2
2
-
-
ARCH 307
Town Planning ( I )
3
2
2
-
ARCH 308
Soil Mechanics & Foundation
ARCH 217
2
1
2
1
ARCH 309
Theory of Structure ( II )
ARCH 216
3
2
2
-
ARCH 310
Reinforced Concrete Design
ARCH 308
4
2
4
-
ARCH 311
Steel Construction
ARCH 309
3
2
2
-
ARCH 312
Quantities and specifications
2
1
2
-
ARCH 313
Building Construction Equipment
2
2
-
-
ARCH 314
Interior Design
3
1
4
-
ARCH 210
Modern University for Technology & Information – Faculty of Engineering
Page 35
2. Specialized Engineering Courses :( Elective 8 credits ) Code
Course title
Pre. Req.
.
Lab.
2
2
-
Town Planning ( II )
ARCH 316
Modular coordination Urban planning
2
1
2
-
ARCH 317
Design &Development of Rural areas planning Computer Application ( II ) Areas Architecture Design Using Computer
2
1
2
-
ARCH 224
2
1
-
3
ARCH 301
2
1
-
3
ARCH 301
3
2
2
-
2
2
-
-
3
1
4
-
3
1
4
-
3
1
4
-
3
1
4
-
3
1
4
-
3
1
4
-
ARCH 319 ARCH 320 ARCH 321
Smart Building Design Computer Solar Architecture
ARCH 322
Hospital Buildings
ARCH 323
Hospital Buildings Design
ARCH 324
Educational Buildings
ARCH 325
Educational Buildings Design
ARCH 326
Restorations ( I )
ARCH 327
Restorations ( II )
ARCH 301
ARCH 301
ARCH 327
3
Ex.
ARCH 315
ARCH 318
ARCH 307
Credits Lec
3. B.Sc Projects :( Compulsory 13 credits ) Code
Course title
ARCH 328
B.Sc. Project Premium
ARCH 329
B.Sc. Project
Pre. Req.
ARCH 329
Modern University for Technology & Information – Faculty of Engineering
Credits Lec.
Ex. Lab.
3
-
4
-
10
4
12
-
Page 36
4. Humanity& Language Courses :( Compulsory 4 credits ) Code
Course title
Pre. Req. Credits
Lec.
ARCH 330
Urban Renewal
2
1
ARCH 331
Building Economics
2
ARCH 332
Accounting
ARCH 333 ARCH 334
Ex. Lab . 2
-
2
-
-
2
2
-
-
Feasibility Studies
2
2
-
-
Legislations
2
2
-
-
5. Summer Training: ( One complete training period – 5 credits ) Code STR (IV)
Course title Field training
Pre. Req. STR (III)
Modern University for Technology & Information – Faculty of Engineering
Credits Lec. 5
-
Ex. Lab. -
Page 37
60
Modules in the Preparatory Phase
Modern University for Technology & Information – Faculty of Engineering
Page 38
Code: MATH 101
Subject: Mathematics (I)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Functions [Basic elementary functions - Special Types Of Functions: Polynomials - Exponential functions - Logarithmic functions - Trigonometric functions - Inverse Trigonometric functions - Hyperbolic functions - Inverse Hyperbolic functions] - Limits of functions - Derivatives of Functions and Inverse Functions Derivatives of [Trigonometric functions - inverse trigonometric functions - Exponential and Logarithmic functions - Hyperbolic functions - Inverse Hyperbolic functions - Logarithmic Differentiation - Parametric representation of curves - Derivatives of higher order – Differentials - Mean Value Theorems [Taylor and Maclurin’s theorems Rolle's Lagrange's, Cauchy's Mean Value Theorems - Evaluation Of Indeterminate Forms - Curve Tracing - Tangents and Normal.
Code: MATH 102
Subject: Mathematics (II)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Algebra : Mathematical Induction - Partial Fractions [Polynomials - Resolution of rational functions into partial fractions - Methods for determining coefficients ] Finite Series [Summation of series - The difference method ] Binomial Expansion [ Binomial expansion for negative and fractional indices Determination of a binomial function from its expansion]. Matrices [Matrix Algebra - Products by partitioning - Determinants - Inverse of a matrix - Linear dependence of vectors - The rank of a matrix - System of linear equations - Eigenvalues and eigenvectors - Reduction of a matrix to Diagonal canonical form - Quadratic form. Theory of Equations: Some Elementary Properties - Equations with given Roots - Horner’s Method of Reducing an Algebraic Equation - Equations with Integer Coefficients - Equation reduced to quadratic equation - Binomial Equations - De Moiver’s Theorem - Cubic Equations - Quartic Equations Reciprocal Equations - Analytical Geometry: Plane Geometry [Fundamental Concepts Cartesian and polar coordinates - Transformation of coordinates. Equations Representing Two Straight Lines [Homogeneous equation of the second degree - General Equation Of The Second Degree - General equation to pair of straight lines - Homogenizing equations. The Circle [Equation of the circle - Tangent and Normal - Tangent drawn from an external point - Chord of contact - Pole and Polar - Parametric equation to the circle - Polar Equation to a circle - Systems of Circles - Equation of a system of coaxial circles . Conic Sections [General equation of the following sections: The Parabola - The Ellipse - The Hyperbola [Parametric equations - Equations of the tangent and normal - Chord of contact and Polar Some properties of each] - Solid Geometry: Plane, Line, Sphere & important Surfaces.
Modern University for Technology & Information – Faculty of Engineering
Page 39
Code: BENG 103
Subject: Mechanics (I)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Vector algebric - Forces in space definition and equilibrium - Rigid bodies: Equivalent system of forces (2D-3D) - Equilibrium of rigid bodies in 2D - Equilibrium of rigid bodies in 3D. Simple Truss - Friction ( rough plane - rough pulleys ) - Center of mass and center of area. Code: BENG 104
Subject: Mechanics (II)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Kinematics of particles - Rectilinear and curvilinear motion ( Cartesian, polar and Natural coordinates) - Free projectiles in 2D - Impact of solid bodies, Energy and momentum method Constrained motion in circle from one side - Constrained motion in circle from two sides Simple Harmonic Motion Code: BENG 105
Subject: Production Engineering (I)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
0
4
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Eng. Materials - properties. Heating & cooling curves - equilibrium diagram - Alloys - Casting process (Sand casting - Pattern - Mould) - Metal forming ( Hot and Cold ) - forging - rolling - wire drawing - shearing - piercing - punching and deep drawing - Extrusion, Spinning - Metal joining process (riveting - welding & adhesion) - Metal cutting processes (basic elements (tool, work piece & cutting motion) manual cutting operations - Machining operations (Turning - drilling milling - grinding ) - Shaping - planning & slotting - (Tools clamping, W.P. clamping ) Types of machine tools, specifications - Basic length measuring devices (micrometer Verinercaliper)
Modern University for Technology & Information – Faculty of Engineering
Page 40
Code: CHM 106
Subject: Chemistry (I)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : The gaseous state, Liquefaction& Refrigeration. The solutions & Separation Techniques. Acids and Bases Thermo chemistry, Fuels & Combustion. Electrochemistry & Corrosion. Building materials. Detergents and Lubricants. Petroleum and petrochemicals. Environmental pollution. Final Revision.
Code: PHY 107
Subject: Physics (I)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Units and dimensions-Gravitational and Clipper’s Law matter-Circular motion, Simple harmonic motion-Properties of matter, Mass spring systems-Simple, and Compound Pendulum-Elasticity, Type of loading, and deformations-Applications on Elasticity-Fluids and their properties, density, viscosity, hydrostatics-Surface tension and capillarity-Fluid Dynamics, continuity, Bernoulli’s, applications- Principles of Heat-Thermodynamics LawsThermodynamics Cycles-Energy Conservation-Principles of Heat transfer-Devices and Applications.
Code: PHY 108
Subject: Physics (II)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Elec. Charge, Elec. Capacitors and Dielectric, Conductors, Insulators, dipole-Coulomb’s Law, Force, Electrostatic Field and Applications-Electrostatic Fields, Gauss’s theorem, applications Elec. potential, and Elec. Field-Electric charge distribution and effects Types of Batteries Environmental effects and applications-Electricity, Electric current, Electric Resistance-Ohm’s Law, Simi-conductors, Electric potential. e.m.f, Electric power-Kirchhoff’s Law, applicationsElectric Circuits A.C and D.C-Multi Loop Circuits-Magnetism, Magnetic properties of matter, Magnetic force on a conductor-Sources of Magnetic Field, Putt-Safari’s Law, Ampere’s LawMagnetic Induction, Faraday and Lenz’s Laws-Magnetic power, Induction and Induction coefficients-Induction Exchange, Gauss’s Law for magnetism, Maxwell Law-Magnetic Hysteresis, Para and Ferro magnetism.-Principles of Radioactivity and measurements-nuclear safety-Principles of Bio-Physics Effect of magnetic and Electromagnetic on Bio CellsEMI and Shielding. Modern University for Technology & Information – Faculty of Engineering
Page 41
Code: COMP 109
Subject: Introduction to Computer Programming
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction to Computer Programming – (Machine Language- Procedure Oriented Programming Object Oriented Programming -Event Driven Programming) - Introduction to Problem Solving, Algorithms and Flowcharts- Introduction to Programming and Visual Basic- Visual basic User Interface and Introduction to Visual Studio- (Solution, Project, and Forms, Properties, Methods, and Events, Online Help)- Variables and data types, Constants, operators and Calculations ( Naming Conventions ,Scoping Rules ,Data Type Ranges)- Visual Basic Controls – ( Check Boxes vs. Radio Buttons, Labels vs. Text Boxes, List Boxes vs. Combo Boxes, Group Boxes, Menus & Menu Items,Forms,Control Collection,PictureBoxes)- Decisions and Conditions (If-Then-Else ,If-ElseIf ,Select Case ,Nested If Statements)-Subroutines, Functions and Modules Lists and Loops (Do While Loop, Do Until Loop, For Loop)- Arrays
Code: BENG 110
Subject: Engineering Drawing (I)
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
0
3
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Drawing instruments - Drawing sheets - Scales; Folding - Lettering - Alphabet of lines Geometrical Constructions - Pictorial Drawing (Isometric) - Pictorial Drawing (Oblique) Theory of Orthographic Projection - Projection of point ; line and plane ; true shape Projection of geometric solids - Multi view drawing - Missing Views. Subject: Engineering Drawing (II)
Code: BENG 111
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
0
3
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Dimensioning - Full Section - Offsets - Removed - Revolved - Aligned - Half Sections - Steel Structures - Introduction to Assembly
Modern University for Technology & Information – Faculty of Engineering
Page 42
Code: CHM 112
Subject: Chemistry (II)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Organic compounds - Isomerism - Saturated and unsaturated hydrocarbons - Petroleum -Alcohols and phenols - Ethers - Aldehydes and ketones - Carboxylic acids - Esters - Final revisions.
Code: COMP 113
Subject: Computer Programming
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Use program design and documentation tools in C++ development environment- Use arrays variables in C++ programming language- Write modular programs in C++- Concepts of structured programming. - Program structure in C++. - Data types and declaration in C++Input / Output in C++ and I/O stream class-I/O manipulation- Operators and precedence in C++-Decision (selection) constructs in C++- Loops in C++ - Arrays in C++- Functions in C++ -Calling functions (by value, by reference). – using classes – using legacy
Code: BENG 114
Subject: Production Engineering (II)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
-
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Survey and classifications of metal cutting operations - basic concept - machining with single point cutting tools - cutting speed and feed - Calculation of machining time for different processes cutting forces and power in orthogonal cutting - Tool material - properties and types Application of machining with single point tool - ( turning , shaping , planning and slotting) Machining with multiple cutting edge tools: ( applications on drilling , milling and grinding) - Main parts of machine tools - machine tool specifications - drive of machine tool - belt drive - gear box and clutches - Production of gears by milling and by generation - gear finishing - Engineering measurement - principle of production accuracy and measurement accuracy - Types of length measurement - angle measurement - instruments - Principle of gauging. Principle of measurement of thread - gears and surface roughness.
Modern University for Technology & Information – Faculty of Engineering
Page 43
Code: HUM 115
Subject: History of Engineering
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20 %
Assignment
Attendance
Quizzes
15 %
10%
15%
Practical Exam 0%
Content : Identify the art, sciences, technology, and engineering - Civilization development and its relation to natural and humane science - Elements and requirements of science research - Engineering and science research map - science research stages - History of engineering and technology in different ages - Technology transportation - Engineering work activities and engineers responsibilities Engineering education - Engineering development, sociable and economic environment development - Development of technology and engineering work activities - The most famous scientists in engineering and technology - General review. Code: LNG 116
Subject: Technical English (I)
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Technical English, What is - Woodwork, Machinery, and Assembly shops - Plumbing, Welding – Machining - Milling and Grinding Operations - Industrial Safety. Code: LNG 117
Subject: Technical English (II)
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Technical English, - Woodwork, Machinery, and Assembly shops - Electricity, Mechanical and Measurement Workshops - Basic Operations in repair shops - Safety in industrial practices.
Modern University for Technology & Information – Faculty of Engineering
Page 44
Code: STR (I)
Subject: Computer & workshop skills
Credit Hours = 5 hr. Lecture
Exercises
Practical
0
0
60
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction to Networks - Introduction to Internet – Introduction to AutoCAD – Introduction to Car Parts – Factories visit - Review on Web design tools and most famous web browsers - html basics(text format and body attributes ) - Adding links to webpage to connect to other pages to build web site - Arranging web sites using tables - Forms design - Frames –Project.
Modern University for Technology & Information – Faculty of Engineering
Page 45
Modules of Civil Engineering Department [Construction – Construction Project Management]
Phase II
Modern University for Technology & Information – Faculty of Engineering
Page 46
Code: CENG 201
Subject: Engineering Graphics
Credit Hours = 3 hr. Lecture
Exercises
Practical
1
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Steel Structures: Steel Sections- Joints- Metallic Sheds: columns base, riveted joints, connections between columns and beams - Steel bridges- Irrigation Structures: Retaining Walls -BridgesWeirs-Syphons-Regulators-Culverts-Reinforced Concrete Structures: Footing- BeamsColumns- Slabs.
Code: CENG 202
Subject: Introduction to Civil Engineering
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction to Civil Engineering-Types of Buildings-Surveying-Properties of MaterialsConcrete manufacture and Curing -Soil Mechanics and Foundations-Sanitary worksRoads, Air ports and Railways-Quantities and Specifications-Quality Control-Electrical Joints for Residential Structures and Non-residential Structures.
Code: CENG 203
Subject: Mathematics (III)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Infinite series and expansion of functions-Ordinary differential equations: first order Separable, homogeneous, Exact, and linear Equations. nth order D.E with constant coefficients. (homogeneous and non homogeneous)- Functions of several variables: Partial differentiation, maximum and minimum values, Lagrange’s multipliers and conditional extrema, envelopes- Vectors analysis: gradient of scalar fields, divergence and curl of vector fields, Green's - Gauss's - Stoke's theorems Multiple integrals: double integral, triple integral, line integral and surface integral- Functions of complex variable: analytic functions, Cauchy theorem, bilinear transformations, conformal mapping complex differentiation, Complex integrals, Cauchy integral formula, Taylor's and Laurent's series, singular points poles, residue, complex integrals Contour integration.
Works and Painting Works - Specifications of Concrete Materials - Admixtures Manufacturing of Concrete - Fresh Concrete and its Tests - Hardened Concrete and its Tests Polymers - Polymer Materials Strengthened with Fibers. Modern University for Technology & Information – Faculty of Engineering
Page 47
Code: CENG 204
Subject: Mathematics (IV)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : La-place transformations to elementary functions, and inverse La-place of functions, La-place transformations of derivatives and integrals, Solving D.E. using La-place transform. Fourier series, harmonic functions, Fourier integrals- Series solution of ordinary differential equations – Partial differential equations: one dimensional wave equation, separation of variables method, D’Alembert method, one dimensional heat equation- Special functions: gamma function, beta function, Legender’s polynomials, Hankel's and Bessel’s functions- Integral transformations (Fourier, Laplace, Bessel, etc.)
Code: CENG 205
Subject: Properties and Receptivity of Materials I
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Standard Experiments - Specifications and Engineering Materials- Mechanical Properties and Tests of Metals - Steel Reinforcement ( types and tests ) - Corrosion of Metals and ways of protection - Aggregates (types – properties – tests ) - Artificial Stones - Timber
Code: CENG 206
Subject: Strength of Material and Structure
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Stresses and Strains-Introduction to Static-Types of Loads, Supports and Reactions-Stability and Determinacy of Structures-Internal Forces for Beams-Internal Forces for Frames-Internal Forces for Trusses-Internal Forces for Arches.
Modern University for Technology & Information – Faculty of Engineering
Page 48
Code: CENG 207
Subject: Civil Engineering Mechanics
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Area moment of Inertia, Mass moment of Inertia-Static's: three dimensional static's using vector methods-Kinematics: vector equations for an observer on non-rotating axes-Two dimensional problems (rolling contact of curved surfaces)-Rolling motion with slipping and sliding - elements in simple mechanics-Two dimensional rigid body Dynamics-energy, momentum and conservation laws-balancing of rotating and reciprocating masses-Vibration theory: derivation of mathematical model from practical case-single degree of freedom systems , free and forced vibrations, damping Mechanical power transmission: transmission of rotational motion, Linkages, belt drivers, Velocity condition and involutes tooth shape, Efficiency and effective inertia.
Code: CENG 208
Subject: Surveying ( I )
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
3
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Surveying fundamentals-Maps and planes-Linear surveying-Angular measurements: compass, bearing and azimuth -Theodolite - Traverse surveying -Traverse computations-LevellingContouring-Areas and Volumes-Setting out construction work.
Code: CENG 209
Subject: Surveying (II)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Stadia Tachometry-Electronic Distance Measurements (EDM)-Curve Ranging-Geodetic Surveying-Triangulation and Trilatration-Surveying Measurements Adjustment-GPSIntroduction to Photogrammetry-Introduction to Remote Sensing.
Modern University for Technology & Information – Faculty of Engineering
Page 49
Code: CENG 210
Subject: Geotechnical Engineering (I)
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
3
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction to Geotechnical Engineering-Soil Formation-Basic Properties of Soil-Natural Properties of Soil-Sieves analysis-Constancy and Atterberg limits-Soil Classification-Compression and Settlement-Shear Strength-Soil Compaction-Laboratory tests-Types of Site compaction.
Code: CENG 211
Subject: Fluid Mechanics
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Fluid Properties-Fluid Statistics-Continuity Equation-Euler Equation-Bernoulli Equation for Energy-Linear Kinetic Energy-Radial Kinetic Energy its applications-Dimensional Analysis and Dynamic Representation-Viscosity-Laminar Flow through Pipes-Boundary Layers Traction on Submerged Bodies-Energy Lines-Turbulence flow , Laminar flow in pipes.
Code: CENG 212
Subject: Hydraulics
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Flow in Open Channels-Flow Type -Sections Shape-Speed Distribution-Many and Chezy Equations-Design of Sections of Channels and Drains-Critical Depth-Turbulent flowHydraulic Jump-Flow above Weirs- Measurement Instruments -Gradually Change Flow Curves Calculation for Water Surface-Pumps and Turbines.
Modern University for Technology & Information – Faculty of Engineering
Page 50
Code: CENG 213
Subject: Computer Application ( I )
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
1
2
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to AutoCAD 2-D and types of coordinates-Getting Started-Drawing with precisionDrawing objects-Modifying drawing objects-layers & object properties-Controlling layerfeatures-Dealing with texts-Dimension styles and commands-Hatching-Creating blocks-AutoCAD 3-D.
Code: CENG 214
Subject: Computer Application ( II )
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
1
2
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Solving determinate and indeterminate Beams using SAP 2000 -Solving determinate and indeterminate Frames using SAP 2000-Solving determinate and indeterminate Trusses and Arches using SAP 2000-Solving Flat slab using SAP 2000 -Introduction to Primavera-Civil Engineering Programs.
Code: CENG 215
Subject: Structural Analysis
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Influence lines of statically determinant structures -Determing principle axis using Mohr's circle. Straining actions-Normal Stresses in homogenous elastic bodies-Direct Shear in Bolts and Weld-Shear Flow-Shear Stresses due to Bending and Twisting Moments -Combined Stresses Torsion.
Modern University for Technology & Information – Faculty of Engineering
Page 51
Code: CENG 216
Subject: Structural Design ( I )
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to Deformation of Determinate Structures-Double Integration Method -Mono Function Method -Virtual Work-Conjugate Beam Method.
Code: CENG 217
Subject: Reinforced Concrete Design
Credit Hours = 4 hr. Lecture
Exercises
Practical
3
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction to the Mechanical Properties of Reinforced Concrete Components-Design of One Way Solid Slabs and Two Way Solid Slabs -Detailing of Solid Slab Reinforcement-Load Distribution for Beams-Design of Shear for Beams and Design of Sections under Moment only-Detailing of Reinforcement for Beams-Design of Sections under Eccentric Loads-Design and Detailing of Reinforcement for Columns-Paneled Beams-Design of Hollow Blocks SlabsDesign of Flat Slabs.
Code: CENG 218
Subject: Structural Design ( II )
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to Indeterminate Structures - Three Moment Equation - Slope Deflection-Application to Continuous Beams and Frames- Moment distribution Method -Carry Over Moment-Fixed End Moment -Distribution Factor- Structure analysis using computer programs.
Modern University for Technology & Information – Faculty of Engineering
Page 52
Code: CENG 219
Subject: Hydrology
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
1
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Basics of Irrigation Systems-Relations Crop, Water Consumption-Spray Irrigation, Sprinkler Irrigation-Under Surface irrigation-Theories and Design of Water-Transportation Constructions Wells -Open Channels-Open Canals -Open Drainages-Depth of Drainage-Distance between Drainage -Reusing of Drainage Water-Abraded and Sedimentation of Soil. Code: CENG 220
Subject: Building Technology
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : The Components of Buildings-Building Materials and Type of Finishing-Architectural Drawings-Load-Bearing- Constructions of Bricks and stones -Lintels -Arches -Vaults -Domes -Thermal Insulation -Water Proofing-Stair cases in Buildings ,Types, Materials and Design Consideration-Architectural Finishing for Floors-Architectural Finishing for Walls and Ceiling-Joints in Buildings and Architectural Treatments. Code: CENG 221
Subject: Properties and Receptivity of Materials II
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Cement ( production way – types – hydration – properties – tests ) – Lime - Gypsum – Whitewash Works and Painting Works - Specifications of Concrete Materials - Admixtures Manufacturing of Concrete - Fresh Concrete and its Tests - Hardened Concrete and its Tests Polymers - Polymer Materials Strengthened with Fibers.. Code: CENG 222
Subject: Mechanical Engineering
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
1
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Principles of Thermo-dynamics- First law of Thermo-dynamics - Second law of Thermodynamics-Heat Transfer-Thermal Insulation-Mechanical Joints-Mechanical Power Transmission (Gear-Threads)-Power Transmission by Friction. Modern University for Technology & Information – Faculty of Engineering
Page 53
Code: CENG 223
Subject: Electrical Engineering
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
1
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to circuit parameters, linear and nonlinear, lumped and distributed bilateral and unilateral, voltage current relation in basic circuit elements: resistance, inductance and capacitance. Part I Analysis of Electric Circuits with dc Excitation-Kirchhoff’s law-voltage and current dividers-circuit transformations: delta star and vice versa- voltage to current source transformation and vice versa-Mesh or loop method in circuit analysis-nodal method. Network theorems: compensation-reciprocity-proportionate-superposition-thevin's equivalent- Norton equivalentmaximum power transfer-millman's theorem - Part II Analysis of electric circuits with AC excitation Properties of the sinusoid- the average and RMS values-properties of the j operatormanipulation of complex numbers- the complex impedance- the phase diagram- the concept of complex power-the power factor and power factor correction-solution of ac circuits. The mutual coupling – the dot notation- the ideal transformer solution of circuit with inductive mutual coupling Resonance in electrical circuits: the concept of resonance series and parallel resonancequality factor, half power points, sidebands, bandwidth, detuning-The three-phase ac circuits: star and delta configuration solution of three phase with symmetrical load- measurement of electric power-three and two wattmeter method. Part III Analysis of electrical circuits with non sinusoidal excitation-Circuits fed from a periodic non sinusoid voltage source:Fourier analysis of some regular periodic functions (square triangular, sowtooth, half wave rectifier, full wave rectifier, etc…)-The average and RMS values- the circuit power factor- power consumed Transients in electric circuits: circuits excited from a dc source; the series R-L circuits, the series R-C circuits (make and break), parallel R-L and parallel R-C circuits. Circuits excited from an ac source:Fourier analysis of some regular periodic functions (square triangular, saw tooth, half wave rectifier, full wave rectifier, etc…)The average and RMS values- the circuit power factor- power consumed-Transients in electric circuits: circuits excited from a dc source; the series R-L circuits, the series R-C circuits (make and break), parallel R-L and parallel R-C circuits.The two port network - The basic forms of the two port network. (Z-parameter, Y-parameters, ABCD, and CDBA, G, H), the interconnection of two or more Two port network- the feedback using two port network- filter networks.Part IV Analysis of electric circuits with non linear elements-The semigraphical solution of simple series/parallel non-linear elements- the series expansion method (Taylor's and MC Laurin's series) used in solving non linear networks. Application to magnetic circuits, transistor circuits, thermistor varistors circuits etc…
Modern University for Technology & Information – Faculty of Engineering
Page 54
Code: CENG 224
Subject: Civil Engineering Technology
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
1
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Concepts and Basics of Civil Engineering Technology-Basic Science of TechnologyTechniques of Structures and Constructers-Technology of infrastructure (material – means execution) - Technology development (environmental- medial-advanced)-Construction system and Execution ways-Technology and Local Environment. Code: CENG 225
Subject: Building Equipment
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
1
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Tractors and Building Equipments-Lifting Equipment-Soil Compacting Equipments-Basic Definition in Electric Circuits-A.C. Current Circuits-Electric Engines-D.C. Current CircuitsSmall Power Engines-Concrete Pumps and Dewatering Pumps- Mixers-Vibrator Rods-Mixing Station-Cables -Transportation Way of Currents. Code: CENG 226
Subject: Communication in Civil Engineering
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Communication Methods and it's rules in Civil Engineering-Models-Techniques Reports-Short Reports -Long Reports-Fax and E-mail-Periodic Meeting-Preparation of Working TablesPreparation of Papers required for Meetings -Types of Publishing.
Code: CENG 227
Subject: Technical Reports Writing
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Types of Technical Reports-Components of Small Reports-Components of Long Reports-Writing Methods-Reports review- Ways of Presenting Technical Reports-Reports Evaluation.
Modern University for Technology & Information – Faculty of Engineering
Page 55
Code: CENG 228
Subject: Foundation of Rational Thoughts
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Characteristics of Thoughts-Vertical, Horizontal and Perpendicular Cumulative OrganizationFinding Reasons- Comprehensiveness and Consequential-Precisely and Abstraction-Methodology, Observation, Assumption, and Trial-Partial Laws-General Theory and Extraction-Morality Elements in the Researcher Personality-Critical Spirit-Honesty and Choices-Objectivity.
Code: CENG 229
Subject: Engineering Geology
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
1
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Basics of Engineering Geology- Rocks and Materials types-Natural and Engineering Properties of Rocks-Engineering Classification of Rocks-Geological formations-Folds- Faults-SeparatorsSliding-Graphical Representation of Discontinuity-Soil Formations- Ground Water-Geological Maps- Geological Formations in Egypt.
Code: CENG 230
Subject: Engineering Economics
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
1
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Basics of Budget Management- Accounting Methods- Finance acknowledge-Accumulation and Cost Benefit Analysis- Special Accounting shapes for Construction Projects- Evaluation of Companies and Projects- Taking back risk Relations. Code: STR ( II )
Subject: Field Training
Credit Hours = 5 hr. Lecture
Exercises
Practical
0
0
60
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Business area.
Modern University for Technology & Information – Faculty of Engineering
Page 56
Code: STR ( III )
Subject: Practical Training
Credit Hours = 5 hr. Lecture
Exercises
Practical
0
0
60
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Business area.
Modern University for Technology & Information – Faculty of Engineering
Page 57
Modules of Construction Project Management Engineering Department Phase III
Modern University for Technology & Information – Faculty of Engineering
Page 58
Code: CEM 301
Subject: Construction Unit Operation
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
1
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Work organization-Activities specification-Time estimation of activity execution-Illusionary activities and its rule in work plan-Working network-Time schedule-Resources planningExecution planning-Financing accumulative curve.
Code: CEM 302
Subject: Geotechnical Engineering (II)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Metallic Composition of Soil-Soil Composition-Factors of water pressure in air voids-Slope Stability-Flow Net-Water Drainage-Design of Filters and Drainage. Code: CEM 303
Subject: Municipal Engineering
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Initially studies needed for drainage projects-Sources of water drainage and its propertiesDesign, planning, accumulation and transportation work execution-Drainage water treatment works-Samples and water drainage analysis-Discarding work and recycling of water-Treatment works, discharge and recycling of sludge.
Code: CEM 304
Subject: Public Works Constructions I
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Planning means for roads, airports-Planning shapes-Data accumulation for planning-Site remarkData organizing-Graphical means for calculating time, and distance for railway connectionsChoosing, and editing of horizontal curves
Modern University for Technology & Information – Faculty of Engineering
Page 59
Code: CEM 305
Subject: Sanitary Waste Water Systems
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Preliminary studies for water supply projects- Water sources and collection works- Water treatment process- Water storage work- Water analysis and sampling- Water distribution and networks- Water supply planning- Preliminary studies for waste water projects- Waste water sources and their characteristics- Sewage systems planning- Design and execution- Waste water treatment process- Waste water analysis and sampling- Waste water disposal and reuse and sludge treatment. Code: CENG 306
Subject: Quantities & Specifications
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to the writing of specifications documents presented with working drawings as part of the contract documents-General and special conditions of the job-Defining the scope of work and detailed descriptions of items and materials-Quantity Surveying (rules and methods) -Check listing of the finished work and detecting faulty items.
Code: CEM 307
Subject: Foundation Design
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to Foundations-Wall footings-Isolated Footings-Combined Footings- Strap Beams-Raft Foundations-Deep Foundations and Classification of Piles-Capacity of a single Pile-Pile Load Test-Capacity of Pile groups-Settlement of Pile Foundation. Code: CEM 308
Subject: Advanced Reinforced Concrete Design
Credit Hours = 4 hr. Lecture
Exercises
Practical
3
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Design of stairs-Girders- Frames- Arches-Trusses-Vierneedel-Saw tooth roofs - Design of shells and Dooms- Design of Tanks ( Elevated – Ground – Under ground ) - Introduction to Prestressed and Precast Concrete. Modern University for Technology & Information – Faculty of Engineering
Page 60
Code: CEM 309
Subject: Decision Making & Project Planning
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Definition of making decisions-Properties of making decisions-Nature of making decisions-Basic elements of making decisions-Psychological elements-Means of communication and making decision-Making decision technology and project planning-Problems analysis-Alternative solutions development-Choice of optimum alternative and its relation to risks and limited project resources.
Code: CEM 310
Subject: Structural Steel Design I
Credit Hours = 4hr.
Assessment
Lecture
Exercises
Practical
3
2
0
Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to Steel Structures-Principles of Design and Loads-Structural Systems and Resistance to Horizontal forces-Bolted and Welded Connections- Design of Tension membersDesign of Compression members-Buckling of Compression members-Design of Beams-Local and Lateral Buckling-Design of Beam Columns-Built up Sections-Design of Composite Beams.
Code: CEM 311
Subject: Quality Control
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction - Statistical applications - Control Charts – Sampling - ISO 9000-2000 - Using Computers and Simulations.
Modern University for Technology & Information – Faculty of Engineering
Page 61
Code: CEM 312
Subject: Structural Steel Design II
Credit Hours = 4hr.
Assessment
Lecture
Exercises
Practical
3
2
0
Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Design of Rectangular Elevated Tanks-Design of Rectangular Ground Tanks-Design of Rectangular Under-Ground Tanks-Design of Circular Elevated Tanks-Design of Circular Ground Tanks-Design of Circular Under- Ground Tanks-Design of Dooms and Shells- Introduction to Pre- stressed and Pre-cast Concrete Structures.
Code: CEM 313
Subject: Projects Planning & Analysis
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Project definition-Activities-Work network-Calculating the critical path for the project-Time decreasing systems for projects assessment-PERT system.
Code: CEM 314
Subject: Cost Management and Accounting
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Basics of cost management-Accounting methods-Finance acknowledgment-Accumulation and analysis-Accounting shapes for construction projects-Projects, and companies assessmentRelations of risk returning-Prediction, and analysis of finance flow-Project financing-Contracts financing, and finance choices. Code: CEM 315
Subject: Construction Management
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Construction manufacture-Work organizing-Contracting arrangement-Contracting-Contract documents-Entering tender insurance, primary insurance, and final insurance-Construction equipments-Estimation, and publishing-Planning, and tabulation-Calculation of expenditureArbitration and conciliation.
Modern University for Technology & Information – Faculty of Engineering
Page 62
Code: CEM 316
Subject: Public Works Constructions II
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Calculating of safety modulus for railways-Types of branching for high speed-Courtyard classification, and train courtyard-Electrical signals-Economics, and engineering considerationsComputer applications Code: CEM 317
Subject: Numerical Analysis
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Iterative methods for solving linear systems of algebraic equation: Jacobi method, Gauss-Seidel method and Successive over relaxation method. Solution of Equations in one variable: The Bisection method. Fixed-point iteration. The error in the fixed point iteration method. The Newton-Raphson method. Numerical solution of Ordinary differential equations: Systems of first order ODEs. Multistep methods for ODEs: AdamsBashorth methods, Adams Moulton methods. Predictor-corrector methods. Numerical solution of Partial differential equations: Finite difference approximations: Explicit methods and Implicit methods (Crank Nicolson-LaxWendroff-Leap frog).The course requires a moderate amount of programming. C or C++ programming languages are preferred. However, students may also use software programs including Matlab, Mathematica. . Code: CEM 318
Subject: Fire and Explosion Project Protection
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction of fire theory-Inflammation and sources of inflammation-Fire spreading-Types of fires-Materials and fires-Smoke and spreading models-Fire modeling-Explosion causes, fire and explosions dangers analysis- Protection against fires.
Modern University for Technology & Information – Faculty of Engineering
Page 63
Code: CEM 319
Subject: Urban Projects Environmental Assessment
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction-Legal frame for environmental assessment of projects-Verification system of environmental assessment-Tables, and objection system-Guidance keys to employee assessment study on environmental effects for some projects-Roads in cities-Industrial constructionReclamation of land-Accumulation system of liquid waste, and its recycling-Tourism, and urban development. Code: CEM 320
Subject: Micro/Macro Problems issue
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Micro study-Short term planning for solving problems-Macro study-Historical deductionComparison studies-Study of descending and relation modulus.
Code: CEM 321
Subject: Environmental Architecture
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Basics and theories of environmental architecture-Methods of environmental design-Factors effecting on environmental design operations environmental architecture-Climatic factors-Human rest-Solar rays-Assessment methods used to reach the architecture in harmony with surrounded environmental-Heating and cooling systems and its capability to apply on environmental architecture. Code: CEM 322
Subject: Hospitals Construction Management
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Elements of hospitals construction-Row materials, construction necessities obtainmentResources management needed for hospitals construction-Load tables for construction-Time schedule for construction-Efficiency measurements-How to use the Egyptian codes and standard specifications. Modern University for Technology & Information – Faculty of Engineering
Page 64
Code: CEM 323
Subject: Health Industrial Safety
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
1
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Response plans for critical cases-Cleanness-Primary safety specifications-Personal safety equipments-Fire fighting-Using, storage and disposal of materials-Health and safety programsMaintaining of materials-Safety management strategy-Safety management applications-Consider sociality habitude and infection fighting- Radiation resistance-Overlapping of electromagnetic waves and its effects on health. Code: CEM 324
Subject: Matrix Analysis & Structure
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Stiffness matrix method-Buckling of Columns "Euler Theory"-Modeling of structures-Finite element method. Code: CEM 325
Subject: Architecture and Civil Projects Pollution
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Assessment of architecture and civil projects with respect to their Theories-Assessment of projects with respect to their Development-Assessment of projects with respect to their Necessary-Effect on the natural environment specially protected regions-The student perform an assessment to a virgin area passing all the real operations needed to environmental assessment an architecture and civil project. Code: CEM 326
Subject: Work and Time Study
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Detailed study for a complete work system for measuring work and time-Simplification techniques-Specify typical time-Using stop watch-Smoothing skills.
Modern University for Technology & Information – Faculty of Engineering
Page 65
Code: CEM 327
Subject: Facility Planning and Control
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Study of quantity techniques for planning execution means-Direct techniques for reach the best planning- Work arrangement and performance assessment for different execution systemsDiminution techniques (load- distance)-Mechanical techniques ( using carrier strap or pouring and injection pump)-Problems of loading frames-Systems design for closed storage. Code: CEM 328
Subject: B.Sc. Project Premium
Credit Hours = 3 hr. Lecture
Exercises
Practical
0
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Project-Research: Similar projects either International or Local projects-Research: Data and location gathering. Code: CENG 329
Subject: B.Sc. Project
Credit Hours = 5 hr. Lecture
Exercises
Practical
1
3
8
Assessment Defense
Research Phase
Design Phase
Production Phase
Assembly
40%
10%
10%
10%
10%
Final
Presentation & Supervisor opinion
20%
Content : Collection & technical data-Collection & theoretical background-Design and Technological procedures-Problem solving-Realization & design-Testing and inspection-Design & experiment-Writing technical report-Follow up & technical work-Assembly &componentsPresenting the product data-Evaluation & product efficiency. Code: CEM 330
Subject: History of the Build Environment
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Developing the environment from history beginning passing by intermediate era till the twenty one century-Discuss the elements effect on constructed environment development-Reasons of that development until pass by the effect of the present environment in the architecture of the twenty one century.
Modern University for Technology & Information – Faculty of Engineering
Page 66
Code: CEM 331
Subject: Legislations in Civil Engineering
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Main Goals and Life Cycle-Definition of Project as a part of strategic plans-Project Stages-Aspects to consider : Purpose , Activities and Participants-The Role of quality at different project stagesContract Management-Legal and Contractual Aspects-Logistic of Owner and Contractor Organization-Duties, Responsibilities and Authority-Introduction to basic principles to estimate costs and factors involved. Code: CEM 332
Subject: Feasibility Studies.
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : General view for the different fields of Feasibility Studies- Marketing Studies- Technical Feasibilities- Technological Alternatives- Financial Feasibilities- Economic FeasibilitiesOrganizational and Administrative Affairs- Social Studies.
Code: STR ( IV )
Subject: Field & Practical Training
Credit Hours = 5 hr. Lecture
Exercises
Practical
0
0
60
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Business area
Modern University for Technology & Information – Faculty of Engineering
Page 67
Modules of the Construction Engineering Department Phase III
Modern University for Technology & Information – Faculty of Engineering
Page 68
Code: CENG 301
Subject: Geotechnical Engineering (II)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Metallic Composition of Soil-Soil Composition-Factors of water pressure in air voids-Slope Stability-Flow Net-Water Drainage-Design of Filters and Drainage.
Code: CENG 302
Subject: Transportation Engineering
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Definition of Traffic Engineering and Planning Process-Transportation and land use-Site Corridor and Regional Planning levels-Travel characteristics-Supply and Demand Analysis-Data collection:- Sampling, Home interview, Pre-paid mail questionnaire and Monitoring Simplified demand analysis-Trip Generation: - Trip distribution and Gravity models-Model split: - Diversion curves, Probabilistic models Traffic and Assignment Computer in Transportation PlanningEvaluation of Transportation alternatives: - Measures of effectiveness in evaluation and Scoring method. Code: CENG 303
Subject: Structural Steel Design (I)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to Steel Structures-Principles of Design and Loads-Structural Systems and Resistance to Horizontal forces-Bolted and Welded Connections- Design of Tension members-Design of Compression members-Buckling of Compression members-Design of Beams-Local and Lateral Buckling-Design of Beam Columns-Built up Sections-Design of Composite Beams.
Modern University for Technology & Information – Faculty of Engineering
Page 69
Code: CENG 304
Subject: Foundation Design
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to Foundations-Wall footings-Isolated Footings-Combined Footings- Strap BeamsRaft Foundations-Deep Foundations and Classification of Piles-Capacity of a single Pile-Pile Load Test-Capacity of Pile groups-Settlement of Pile Foundation. Code: CENG 305
Subject: Rail Way Engineering
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Definition of High ways-Engineering Evaluation for High ways-Structural Design of High waysStructural Design of Flexible Pavements-Structural Design of Rigid Pavements- Horizontal Curves- Vertical Curves-Different ways for choosing High ways.
Code: CENG 306
Subject: Advanced Reinforced Concrete Design(I)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Design of Stairs-Girders- Frames- Arches- Trusses-Vierneedel-Saw tooth roofs. Code: CENG 307
Subject: Advanced Reinforced Concrete Design(II)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Design of Rectangular Elevated Tanks-Design of Rectangular Ground Tanks-Design of Rectangular Under-Ground Tanks-Design of Circular Elevated Tanks-Design of Circular Ground Tanks-Design of Circular Under- Ground Tanks-Design of Dooms and Shells- Introduction to Pre- stressed and Pre-cast Concrete Structures.
Modern University for Technology & Information – Faculty of Engineering
Page 70
Code: CENG 308
Subject: Sanitary Waste Water Systems
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Preliminary studies for water supply projects- Water sources and collection works- Water treatment process- Water storage work- Water analysis and sampling- Water distribution and networks- Water supply planning- Preliminary studies for waste water projects- Waste water sources and their characteristics- Sewage systems planning- Design and execution- Waste water treatment process- Waste water analysis and sampling- Waste water disposal and reuse and sludge treatment. Code: CENG 309
Subject: Subject: Structure Steel Design (II)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Stiffness matrix method- Buckling of Columns "Euler Theory"- Modeling of structuresFinite element method. Code: CENG 310
Subject: Roads and Airport Design
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Structure design of roads – soil of road – materials for roads – flexible pavement design – rigid pavement design – geometric design of road – planning and alignment (elevation) – horizontal curve design – vertical curve design – interchange – airport planning – length of runway design – airport pavement ( runway – taxiway) – airport lighting Code: CENG 311
Subject: Municipal Engineering
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Initially studies needed for drainage projects-Sources of water drainage and its propertiesDesign, planning, accumulation and transportation work execution-Drainage water treatment works-Samples and water drainage analysis-Discarding work and recycling of water-Treatment works, discharge and recycling of sludge. Modern University for Technology & Information – Faculty of Engineering
Page 71
Code: CENG 312
Subject: Structure Steel Design (III)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Parts of steel roadway bridges – loads and design of stringers for the roadway bridges – loads and design of cross girders for the roadway bridges – design of connections between stringers and the cross girder for the roadway bridges – lateral torsional buckling for the main girder for the roadway bridges – load and design of the main girder of the roadway bridges – curtailment of the flange plate of the main girder for the roadway bridges – design built up section of the roadway bridges – design web stiffeners , splices for the main girder of the road way bridges – design wind bracing of the roadway bridges – design the roller and hinged bases of the roadway bridges Code: CENG 313
Subject: Structure Steel Design (IV)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Parts of steel railway bridges – load and design of cross girders for the way bridges - design of connections between stringers and the cross girder for the railway bridges – design the stringer bracing and its connections for the railway bridges – load and design of the main truss and its connection of the railway bridges – design the splices and its connections of the railway bridges design wind bracing of the railway bridges – design the roller and hinged bases of the railway bridges – introduction to the design elements of steel composite beam and girder bridges Code: CENG 314
Subject: Quantities & Specifications
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to the writing of specifications documents presented with working drawings as part of the contract documents-General and special conditions of the job-Defining the scope of work and detailed descriptions of items and materials-Quantity Surveying (rules and methods) -Check listing of the finished work and detecting faulty items.
Modern University for Technology & Information – Faculty of Engineering
Page 72
Code: CENG 315
Subject: Tunnels and Under Ground Structures
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Classifications of Tunnels- Tunneling and Pipe Jacking- Analysis and design of TunnelingGround Settlement due to Tunneling- Geotechnical Instrumentation- Analysis and design of Culverts- Subway stations and other Under Ground Structures. Code: CENG 316
Subject: Construction Management
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
1
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Construction manufacture-Work organizing-Contracting arrangement-Contracting-Contract documents-Entering tender insurance, primary insurance, and final insurance-Construction equipments-Estimation, and publishing-Planning, and tabulation-Calculation of expenditureArbitration and conciliation. Code: CENG 317
Subject: Environmental Engineering
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to Environmental Science-Required Preliminary Studies-Impact on Wild Life-Impact on Human Life-Environmental Control Law and Applications-Environmental Protection from Pollution-Measurement ways for Pollution-Case Study.
Code: CENG 318
Subject: Decision Making in Urban Environment
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Decision making definition-Properties of Decision making-Nature of Decision making-Main elements for Decision making-Sociology elements-Communication methods and Decision makingDecision making Technology-Problem analysis-Development of alternative solutions-Choosing the best alternative and its relation with risks.
Modern University for Technology & Information – Faculty of Engineering
Page 73
Code: CENG 319
Subject: Civil Planning & Housing
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Problems of civil planning in Egypt, mentioning advanced cities in the world, and peoples-Civil planning study, and its territory as a planning unit-Theories of general, and gradual planningBasics and theories of land usage-Regions, and residential society-Working centers-Services types-Industrial areas, and roads networks-Directions, and residential operation systems-Human and residential models-Planning operation, and design of residential regions, and industrial, environmental, and social factors. Code: CENG 320
Subject: Town Planning
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : The beginning of the city Applications-Historical background of ancient Egyptian civilization, planning of Greek and Roman cities-Planning definition, elements & level-Site analysis studiesEvaluating site analysis studies-Simian on neighbour hoods (Introducing neighbour hoods).
Code: CENG 321
Subject: Numerical Analysis
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Iterative methods for solving linear systems of algebraic equation: Jacobi method, Gauss-Seidel method and Successive over relaxation method. Solution of Equations in one variable: The Bisection method. Fixed-point iteration. The error in the fixed point iteration method. The Newton-Raphson method. Numerical solution of Ordinary differential equations: Systems of first order ODEs. Multistep methods for ODEs: AdamsBashorth methods, Adams Moulton methods. Predictor-corrector methods. Numerical solution of Partial differential equations: Finite difference approximations: Explicit methods and Implicit methods (Crank Nicolson-LaxWendroff-Leap frog).The course requires a moderate amount of programming. C or C++ programming languages are preferred. However, students may also use software programs including Matlab, Mathematica. Modern University for Technology & Information – Faculty of Engineering
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Code: CENG 322
Subject: Quality Control
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction - Statistical applications - Control Charts – Sampling - ISO 9000-2000 - Using Computers and Simulations.
Code: CENG 323
Subject: Water Engineering
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Alignment of canals and drains- Varies types of road ways crossing with water ways- Small span bridges of varies types ( Arches , R.C., Steel ) - Design of Culverts- Design of various bridge elements including Piers and abutments- Design of Syphons- Design of Aqueducts- Design of Weirs- Design of Regulators and Barrages- Design of Symmetrical Locks & Unsymmetrical Locks- Design of Dams.
Code: CENG 323
Subject: BS.c Project Premium
Credit Hours = 3 hr. Lecture
Exercises
Practical
0
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Project-Research: Similar projects either International or Local projects-Research: Data and location gathering.
Modern University for Technology & Information – Faculty of Engineering
Page 75
Code: CENG 324
Subject: B.Sc. Project
Credit Hours = 5 hr. Lecture
Exercises
Practical
1
3
8
Assessment Defense
Research Phase
Design Phase
Production Phase
Assembly
Presentation & Supervisor opinion
40%
10%
10%
10%
10%
20%
Final
Content : Collection & technical data-Collection & theoretical background-Design and Technological procedures-Problem solving-Realization & design-Testing and inspection-Design & experiment-Writing technical report-Follow up & technical work-Assembly &componentsPresenting the product data-Evaluation & product efficiency. Code: CENG 325
Subject: Legislations in Civil Engineering
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Main Goals and Life Cycle-Definition of Project as a part of strategic plans-Project Stages-Aspects to consider : Purpose, Activities and Participants-The Role of quality at different project stagesContract Management-Legal and Contractual Aspects-Logistic of Owner and Contractor Organization-Duties, Responsibilities and Authority-Introduction to basic principles to estimate costs and factors involved.
Code: CENG 326
Subject: Feasibility Studies
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : General view for the different fields of Feasibility Studies- Marketing Studies- Technical Feasibilities- Technological Alternatives- Financial Feasibilities- Economic FeasibilitiesOrganizational and Administrative Affairs- Social Studies. Code: STR ( IV )
Subject: Field & Practical Training
Credit Hours = 5 hr. Lecture
Exercises
Practical
0
0
60
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Business area.
Modern University for Technology & Information – Faculty of Engineering
Page 76
Modules of Mechanical Engineering Department
[ Mechatronics – Production ] Phase II
Modern University for Technology & Information – Faculty of Engineering
Page 77
Code: MENG 201
Subject: Mechanical Drawing
Credit Hours = 3 hr. Lecture
Exercises
Practical
1
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Engineering Materials - Limits & Fits - Machining Marks - Assembly Drawings -Detail Drawings - Mechanical joints - Threaded joints, and locking - Vices, clamps (Ass&. Det .drw) - Lathe tool post - Key and pin joints - Gears, types and standards - Use of Computers in drawings Code: MENG 202
Subject: Machine Construction
Credit Hours = 3 hr. Lecture
Exercises
Practical
1
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Continued use of limits and fits - Introduction to and use of geometrical tolerances and surface finish specifications - Use of functional design and manufacturing datum - Machine features including cams - Machine and screw threads - Typical machine element -Systematic design for form and function, Code: MENG 203
Subject: Production Engineering (III)
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
2
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction, source of wealth, the role of manufacturing, engineering materials, basic process Solidification: (i) Expendable mould processes: sand casting, shell moulding, investment casting. (ii) Permanent mould processes: gravity and pressure die casting, injection moulding. - Bulk deformation: steady and non-steady state processes, hold and cold working, forging, rolling and extrusion. - Material removal: machining methods, metal cutting, development of cutting tools, forming and generating, single-point, multi-point and random-point machining, sheet-metal working. - Specialised machining methods: electrical, electrochemical, chemical, thermal. Surface texture: nature of surface, functional requirements, economic constraints, methods of measurements. Joining processes: permanent and non- permanent, mechanical joining methods, welding, soldering and brazing. Computer-aided manufacturing: origins of numerical control, development of CNC, impact on manufacturing, flexible manufacturing, computer-integrated manufacturing.
Modern University for Technology & Information – Faculty of Engineering
Page 78
Code: MENG 204
Subject: Engineering Mechanics & Theory of Machines
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Moment of inertia - System of particles - Kinematics of rigid bodies - Plane motion of rigid bodies: force & acceleration - Plane motion of rigid bodies: Energy & Momentum - Cams
Code: MENG 205
Subject: Thermodynamics
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
2
3
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Basic definition and system approach, process and cycles, zeroth law of thermodynamics and temperature measurement, microscopic and macroscopic viewpoints-The first law of thermodynamics for closed systems, work and heat transfers-Determination of work transfer for special cases, compression of heat and work transfer-Energy conservation in closed thermal systems, internal energy and application of The first law of thermodynamics-Pure substance, phases and phase change, critical point and triple point, the two property rule-Equations of state, perfect gas, specific heats of the fluids, properties of wet vapours, dryness fraction-The first law of Thermodynamics for open systems ( control volumes)-Energy transfers for open systems and environment, concept of flow energy, unsteady flow energy equation-Simplification to steady flow energy equation, practical examples of application of the steady flow energy equation-The second law of thermodynamics, heat engines and heat pumps-Thermal efficiency, the reversible process, the Carnot cycle-Thermodynamic temperature, inequality of Clausius, entropy-a macroscopic property. - Calculation of entropy changes for gas and vapours, a physical interpretation entropy
Code: MENG 206
Subject: Strength of Materials
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content: Introduction to static - Direct stress strain: principles of stress and strain. - Elastic modulus, factors of safety.- Non-uniform bars, compound bars. - Thermal stresses, strain energy and resilience.Shock loading, stresses in rotating arms. - Types of installations and strength - Focal points and reactions. - Beams under concentrated or distributed loads. - Vertical power and shear force of the deformed. - Stresses and theories collapse of the installations.
Modern University for Technology & Information – Faculty of Engineering
Page 79
Code: MENG 207
Subject: Metallurgy
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Crystal Structure - Binary Equilibrium Diagrams - Iron-Carbon Diagram – Steels - Cast Iron Heat Treatment of Steels and Cast Iron – Non-Ferrous alloys - Aluminium and alloys - Copper and alloys - Babbits - Composite materials, Ceramics, Polymers.
Code: MENG 208
Subject: Mathematics (III)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content: Infinite series and expansion of functions. - Ordinary differential equations: first order Separable, homogeneous, Exact, and linear Equations. nth order D.E with constant coefficients. (homogeneous and non homogeneous) - Functions of several variables: Partial differentiation, maximum and minimum values, Lagrange’s multipliers and conditional extrema, envelopes Vectors analysis: gradient of scalar fields, divergence and curl of vector fields, Green's - Gauss's Stoke's theorems Multiple integrals: double integral, triple integral, line integral and surface integral. - Functions of complex variable: analytic functions, Cauchy theorem, bilinear transformations, conformal mapping complex differentiation, Complex integrals, Cauchy integral formula, Taylor's and Laurent's series, singular points poles, residue, complex integrals Contour integration.
Code: MENG 209
Subject: Mathematics (IV)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content: La-place transformations to elementary functions, and inverse La-place of functions, La-place transformations of derivatives and integrals, Solving D.E. using La-place transform.- Fourier series, harmonic functions, Fourier integrals.- Series solution of ordinary differential equations Partial differential equations: one dimensional wave equation, separation of variables method, D’Alembert method, one dimensional heat equation - Special functions: gamma function, beta function, Legender’s polynomials, Hankel's and Bessel’s functions. Integral transformations (Fourier, Laplace, Bessel, etc.)
Modern University for Technology & Information – Faculty of Engineering
Page 80
Code: MENG 210
Subject: Stress Analysis
Credit Hours = 3 hr.
Assessment
Lecture
Exercises
Practical
2
2
0
Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Normal force, shear force, bending moment and twisting moment in structures.- Stresses in simple beams due to bending or twisting moment.- Stress in beams under combined loading.- Stresses in two planes, principle stresses, and Mohr's circle. - Stresses in thin – walled vessels.- Stresses in springs. - Measuring of loads and deformation in simple systems. Code: MENG 211
Subject: Fluid Mechanics
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
3
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Basic Concepts and Fluid Properties - Statics of Flow - Flow Dynamics - Continuity Equation Linear and rotational motion - Analysis and analogy - Flow through pipes and open channels Using Computers.
Code: MENG 212
Subject: Mechanical Element Design
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
3
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to design process with emphasis on iterative nature. - Problem identification and specification, conceptual design. - Assessment of alternative ideas and analysis of chosen idea with due consideration of imposed constraints, e.g. .performance, cost and manufacture. - Design report presentation. - Further detail design including springs, bearings and seal selection and keyway design. - Power transmission elements such as electric motors, gears, chain, belts etc. - Cost and value analysis and engineering for simple design products - Design for economic manufacture influence of PD 6470. - Use of models, physical and mathematical. - Concept of optimal design. Consideration of design criteria. - Ergonomic and environmental interfaces. - Aesthetics and factors of safety.
Modern University for Technology & Information – Faculty of Engineering
Page 81
Code: MENG 213
Subject: Fluid Power Systems
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Power systems, classification, operation, and comparison. - Introducing hydraulic power systems, standard symbols - Hydraulic fluids; properties and effect on system performance. Hydraulic transmission lines and connectors - Hydraulic pumps: - Classification, basic mathematical relations, ideal and real pumps, displacement pump characteristics and specification, flow pulsation and cavitations. - Gear pumps, vane pumps and piston pumps Fixed and variable displacement pumps and pump control - Control valves - Classification and basic design - Pressure control valves (direct/pilot operated); relief valves, pressure reducers, sequence valves and accumulator charging valves - Directional control valves - Flow control valves - Check valves - Hydraulic actuators; cylinders, motors and rotary actuators Accessories; accumulators, filters, reservoirs, pressure switches,…etc - Case studies; design and analysis of function of hydraulic circuits of industrial and mobile systems. - Introduction to electro-hydraulic servo and proportional valves technology. – Seminar. Code: MENG 214
Subject: Electrical Engineering Fundamentals & Circuits
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15 %
Assignment
Attendance
Quizzes
10 %
10%
10%
Practical Exam 15 %
Content : Introduction to circuit parameters, linear and nonlinear, lumped and distributed bilateral and unilateral, voltage current relation in basic circuit elements: resistance, inductance and capacitance. Part I Analysis of Electric Circuits with dc Excitation-Kirchhoff’s law-voltage and current dividers-circuit transformations: delta star and vice versa- voltage to current source transformation and vice versa-Mesh or loop method in circuit analysis-nodal method. Network theorems: compensation-reciprocity-proportionate-superposition-thevin's equivalent- Norton equivalent-maximum power transfer-millman's theorem - Part II Analysis of electric circuits with AC excitation Properties of the sinusoid- the average and RMS values-properties of the j operator-manipulation of complex numbers- the complex impedance- the phase diagram- the concept of complex power-the power factor and power factor correction-solution of ac circuits. The mutual coupling – the dot notation- the ideal transformer solution of circuit with inductive mutual coupling Resonance in electrical circuits: the concept of resonance series and parallel resonance- quality factor, half power points, sidebands, bandwidth, detuning-The three-phase ac circuits: star and delta configuration solution of three phase with symmetrical loadmeasurement of electric power-three and two wattmeter method. Part III Analysis of electrical circuits with non sinusoidal excitation-Circuits fed from a periodic non sinusoid voltage source:Fourier analysis of some regular periodic functions (square triangular, sowtooth, half wave rectifier, full wave rectifier, etc…)-The average and RMS values- the circuit power factor- power consumed -Transients in electric circuits: circuits excited from a dc source; the series R-L circuits, the series R-C circuits (make and break), parallel R-L and parallel R-C circuits. Circuits excited from an ac source:Fourier analysis of some regular Modern University for Technology & Information – Faculty of Engineering
Page 82
periodic functions (square triangular, saw tooth, half wave rectifier, full wave rectifier, etc…)The average and RMS values- the circuit power factor- power consumed-Transients in electric circuits: circuits excited from a dc source; the series R-L circuits, the series R-C circuits (make and break), parallel R-L and parallel R-C circuits.The two port network - The basic forms of the two port network. (Z-parameter, Y-parameters, ABCD, and CDBA, G, H), the interconnection of two or more Two port network- the feedback using two port networkfilter networks.Part IV Analysis of electric circuits with non linear elements-The semigraphical solution of simple series/parallel non-linear elements- the series expansion method (Taylor's and MC Laurin's series) used in solving non linear networks. Application to magnetic circuits, transistor circuits, thermistor varistors circuits etc… Code: MENG 215
Subject: Computer Applications (I)
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
1
2
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to AutoCAD 2-D and types of coordinates-Getting Started-Drawing with precisionDrawing objects-Modifying drawing objects-layers & object properties-Controlling layerfeatures-Dealing with texts-Dimension styles and commands-Hatching-Creating blocks-AutoCAD 3-D.
Code: MENG 216
Subject: Electronic Devices & Circuits
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Electronic Devices - Semiconductors (diodes) - Single junction semiconductors - Double junction semiconductors - Three and multi junction - Microprocessors - Devices - Diode Circuits (single, double …) - Transistor Circuits (Amplifiers, Switches, Oscillators...) Operational Amplifiers (Linear, Non-linear …)
Modern University for Technology & Information – Faculty of Engineering
Page 83
Code: MENG 217
Subject: Metrology & Measurements
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15 %
Assignment
Attendance
Quizzes
10 %
10%
10%
Practical Exam 15 %
Content : Measuring system characteristics - Traceability, uncertainty & calibration - Strain measurements: Wire strain gauges - Strain measurements: Extensometers - Stress measurements: Photo-elasticity - Time and speed measurements - Acceleration and frequency measurements - Force and torque measurements - Power measurements - Pressure measurements - Solid and fluid level measurements - Viscosity measurements - Fluid flow measurements - 3-D Measurements - Applications to Gears, Springs … - Computer Assisted Measurement Code: MENG 218
Subject: Civil Engineering
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction to Civil Engineering - Types of Structures - Surveying - Properties of Materials Soil Mechanics and Foundations - Concrete Skeletons - Steel Skeletons - Civil works and Engineering Measurements - Electrical Joints for Residential Structures and Non-residential Structures - Quality Control. Code: MENG 219
Subject: Thermodynamics & Energy Systems
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
2
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Energy systems - Rankin and Standard Air Cycles - Cycle calculation, T-S and p-V diagrams Ideal, real and mixed gases - Heat Engines - Heat Pumps. Code: MENG 220
Subject: Composite Materials
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
0
3
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction - Plastic matrix composite - Metal matrix composite - Ceramic matrix composite Other composites - Properties and testing of composite materials - Methods of Manufacturing of parts produced from composite materials - Case studies
Modern University for Technology & Information – Faculty of Engineering
Page 84
Code: MENG 221
Subject: Computer Applications (II)
Credit Hours = 3 hr. Lecture
Exercises
Practical
1
1
3
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to MATLAB. - Matrix operations, Array operations Vectors and matrix operations. - Graphing. - Data analysis - Control Flow. - M – Files. - Advanced programming in MATLAB - Introduction to simulink - Computer Application using MATLAB Mathematical Models of systems Code: MENG 222
Subject: Heat Transfer & Industrial Furnaces
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction to Conduction - One Dimensional Steady State Conduction - Two Dimensional Steady State Conduction - Transient Conduction - Introduction to Convection - External Flow Internal Flow - Free Convection - Radiation Processes and Properties - Radiation Exchange Between Surfaces. - Application to Industrial Furnaces Code: MENG 223
Subject: Material and Process Selection
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Metal working - Determining material properties - Combined stress and yield - Mechanics of metal working - Metal cutting, process parameters - Fast fracture, origin and progress mechanisms -Fatigue, origin, testing and analysis - Creep, characteristics, structural effects… Oxidation and corrosion, Origin and progress.
Modern University for Technology & Information – Faculty of Engineering
Page 85
Code: MENG 224
Subject: Properties and Testing of materials
Credit Hours = 3 hr.
Assessment
Lecture
Exercises
Practical
2
2
3
Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Standard Experiments-Specifications and Engineering Materials-Mechanical Properties and Tests of Metals-Steel Reinforcement (types and tests)-Corrosion of Metals and ways of protection-Polymers and Polymer Materials Strengthened with Fibres-Advanced metallic materials:AL-LI alloy developments and replacement trials in helicopter production, principles and practice of fiber composite materials, rapid solidification techniques, porous metalsAdvanced ceramic materials: structures (crystal/glasses),oxidation, carbides, nitrides, manufacture and microstructure ,mechanical properties , hardness , wear , plasticity , typical application-Advanced polymeric materials: advanced thermoplastics, structure, mechanical properties, control of degree of crystalline in processing, polymer composites both thermoplastic and thermosetting, self-reinforcing polymers. Code: MENG 225
Subject: Technical Report Writing
Credit Hours = 2 hr.
Assessment
Lecture
Exercises
Practical
2
0
0
Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : The types of technical reports - Short reports the components - Long reports components Writing systems and audit reports - Technical presentation of reports. - Collecting the information - Using graphs and statistics - Selecting and structuring the material - Readability and editing reports - Presenting the findings - Concluding and recommending - Assessment of reports Code: MENG 226
Subject: Technical Legislations
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Dealing with the laws and the responsibilities and rights of interest to engineers to discuss legislative contracts. - Clarify the laws and legislation of interest to engineering in any field covered includes examples of laws: and the laws of the Engineers syndicate, contracts, city planning laws. - The laws of the buildings construction - Laws of dividing and protection the agricultural land - Industrial safety and security - Environmental protection - Insurance laws (accidents and fires) - Investment laws - The laws of irrigation - The relationship between landlord and the tenant - Union of industrial - Environmental law
Modern University for Technology & Information – Faculty of Engineering
Page 86
Code: MENG 227
Subject: Engineering Economics
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
1
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Cash Flow - Compound Interest - Time Value of Money - Nominal and Effective Interest – Equivalence - Engineering Problem Analysis – Depreciation - Income Taxes Code: MENG 228
Subject: Technology & Social Changes
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Definition of technology – Technology as a comfort for human being – Negative effects of technology on the society – Engineer duty toward the society – Different ways of technology transportation – The rule of technology for a good society. Code: STR ( II )
Subject: Field General Training
Credit Hours = 5 hr. Lecture
Exercises
Practical
0
0
60
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Business area. Code: STR ( III )
Subject: Factories & Practical Training
Credit Hours = 5 hr. Lecture
Exercises
Practical
0
0
60
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Business area
Modern University for Technology & Information – Faculty of Engineering
Page 87
Modules of Mechatronics Engineering Department Phase III
Modern University for Technology & Information – Faculty of Engineering
Page 88
Code: MENG 301
Subject: System Dynamics & Vibration
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to system Dynamic System Classification, System Models - Multipart systems, Bond graph, Source – Load synthesis - Basic component Models (Mechanical, Electrical, hydraulic, Thermal), 1-Port, 2-Port, 3-Port junction elements, Causality for basic Multiport. System Models, construction method for Various Domains (Electric, Mechanical, hydraulic) State space Equations, Analysis of system Models. (First and second order systems) Simulation with MATLAB - Vibration of single DOF Systems. - Applications. - Vibration Measurement - Vibration of two and Multi- DOF systems - MATLAB Simulation Code: MENG 302
Subject: Mechanical System Design
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Mechanical system definition & classification - Reliability of mechanical systems - Design optimization - Case Studies - Rolling Machines - Simple Machines - Medium Sized Machines - More Complicated Machines. Code: MENG 303
Subject: Computer Aided Design
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction of CAD/CAM – definition of CAD – Design process ( types of models of CAD – product design – assembly ) – computer graphics ( hardware – software – data structure )function related to CAD – data exchange – finite element methods- software application for design methods
Modern University for Technology & Information – Faculty of Engineering
Page 89
Code: MENG 304
Subject: Computer Aided Manufacturing
Credit Hours = 3 hr. Lecture
Exercises
Practical
1
2
3
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Development in manufacturing system –principle of automation – database for CAM – CNC Programming – process sheet – manual programming – computer aided programming – CAM software
Code: MENG 305
Subject: Mechatronics I
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
-
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction - Definition and system layout - Hardware, Electrical, Mechanical - Controllers Software -PLC, SCADA and PLC Control - Applications in Robotics and Automation Code: MENG 306
Subject: Simulation of Industrial Systems
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Continuous and Discrete system simulation - Development of simulation models - Random number generation - Model Validation, and analysis of model output - Impact of nonlinearity and transient behaviour - Dynamic system analysis -Application of simulation packages. Code: MENG 307
Subject: Programmable Logic Controllers
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
0
3
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction and history - Architecture, CPU and Memory - Power Supply - Input and Output Interfacing - Programming – Applications.
Modern University for Technology & Information – Faculty of Engineering
Page 90
Code: MENG 308
Subject: Robot Technology
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction. - Robot arm kinematics (forward and inverse kinematics problems).- Jacobian and Static force analysis.- Robot arm dynamics (Lagrange-Euler formulation). - Robot arm dynamics (Newton-Euler formulation). - Trajectory planning. - Introduction to manipulator control. Code: MENG 309
Subject: Digital Signal Processing
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Signal, System and Signal processing - Classification of Signals - The concept of Frequency in Continuous-Time and Discrete-Time Signals - Analogue-to-Digital and Digital-to-Analogue Conversion - Fourier series (FS) and Fourier Transform (FT) - Discrete Fourier Transform (DFT) and Its Inverse - Computational complexity of the DFT - Autocorrelation, CrossCorrelation, and Convolution - Z-transform and its inverse - Properties of the Z-transform Some applications of Z-transform in DSP - FIR, IIF filter design - Pattern Recognition Code: MENG 310
Subject: Logic Circuits
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Binary systems: Binary numbers- Number base conversions- Octal & Hexadecimal numbersComplements- Signed binary numbers- Binary Codes. Boolean Algebra & Logic Gates: Basic Definitions- Boolean Algebra- Basic Theorems & properties of Boolean Algebra- Boolean Functions- Canonical & Standard Forms- Digital Logic Gates.Gate Level Minimization: The Map Method- Four variable Map- Five variable Map- Product of sum simplification- Don’t Care Conditions- NAND & NOR ImplementationTwo level Implementation- Exclusive OR Function. Combinational Logic: Combinational Circuits- analysis Procedure- Design Procedure- Binary Adder & Subtractor- Binary Multiplier- Decoders- Encoders- Multiplexers. Synchronous Sequential Logic: Sequential Circuits- Latches- Flip Flops- Analysis of Clocked Sequential Circuits- State Reduction- Design Procedure. Registers & Counters: Registers- Shift Registers- Ripple Counters- Synchronous Counters. Memory & programmable Logic: Randam Access Memory- Memory Decoding- Read only Memory- Programmable Logic Memory- Programmable array Logic. Modern University for Technology & Information – Faculty of Engineering
Page 91
Code: MENG 311
Subject: Automatic Control
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction, basic definitions and terminology - Mathematical topics - Transfer functions, definition and case studies - Block diagrams; conventions, block diagram algebra and reduction of block diagrams. - Signal flow graphs; definition, conventions and Mason’s formula - Time domain analysis - Transient response of proportional, integrating and first order elements - Transient response of second order elements. Effect of location of roots of characteristic equation on the transient response - System identification based of the transient response - Instruments, sensors and controllers - Level control - Flow control - Speed control Temperature control - Robotic arm control - Frequency response - Frequency response; Polar plot and Bode plots - System identification based of the transient and frequency responses Accuracy of feedback systems; steady state error - Stability of feedback systems; Routh Herwitz and Nyquest stability criteria - Root locus analysis - Compensation of control systems - Design and tuning of P, PI and PID controllers. Code: MENG 312
Subject: Process Control & Automation
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
2
3
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction to process control - Thermal sensors - Mechanical sensors - Optical Sensors Final Control Systems - Discrete state process control - Principle PLC control - Applications to machinery and processes - Introduction to basic simulation software Code: MENG 313
Subject: Mechatronics II
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Revision to digital electronics – Introduction to Electrical drives – Introduction to Power electronics – Analogue to Digital system Interface – Microcontrollers including its types / Architecture / Languages / Programming – Applications - Projects
Modern University for Technology & Information – Faculty of Engineering
Page 92
Code: MENG 314
Subject: Computer Integrated Manufacturing
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
-
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Computer numerical control introduction / types / architecture – Direct numerical Control – computer aided part programming – material handling equipments – flexible manufacturing systems – Inventory control – automatic storage and retrieval systems – robots types / construction / applications – Just in time manufacturing – computer aided Quality control – computer integrated manufacturing implementation Code: MENG 315
Subject: Hydraulic Machines
Credit Hours = 3 hr. Lecture
Exercises
Lecture
2
1
2
Assessment Exerci ses 1
Lectu re 2
Exercises
Lecture
1
2
Exercis es 1
Lecture 2
Content : Centrifugal pumps - Axial flow pumps - Mixed flow pumps - Hydraulic turbines and Hydraulic power stations - Positive displacement pumps - Hydro-transmission and Hydraulic system
Code: MENG 316
Subject: Control Using Fluid Power
Credit Hours = 3 hr. Lecture
Exercises
Lecture
2
1
2
Assessment Exerci ses 1
Lectu re 2
Exercises
Lecture
1
2
Exercis es 1
Lecture 2
Content : Introduce Hydraulic Transmission - Positive displacement pumps, actuators, hydraulic oils Hydraulic control system design and construction - Hydro-pneumatic control system - Using Logic Programmable Control Units - Using Hydraulic systems design and Simulation Software.
Modern University for Technology & Information – Faculty of Engineering
Page 93
Code: MENG 317
Subject: Maintenance Planning
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction - Planning preventive maintenance - Maintenance evaluation -Condition monitoring Planning - Computers in maintenance - Reliability in Maintenance - Organization structure for maintenance - Decision making - Material planning and control.
Code: MENG 318
Subject: Internal Combustion Engines
Credit Hours = 3 hr. Lecture
Exercises
Lecture
2
1
2
Assessment Exerci ses 1
Lectu re 2
Exercises
Lecture
1
2
Exercis es 1
Lecture 2
Content : Introduction and classification - Air standard cycles - Real cycles of Petrol, Diesel and gat turbine engines - The combustion process - Construction Parts (piston, con.rod, crankshaft, block, head ..) - Construction of valve timing mechanism - Main Systems (Air supply, Fuel supply, Lubrication, Cooling..) - Future trends.
Code: MENG319
Subject: Refrigeration and Air Conditioning
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction to coolant gases and cooling cycles - Cooling using vapour pressure - Multi pressure cycles - Initial cooling and roasting - Dissipation cooling - Type of cooling units and principles of operation - Coolers and cooling tunnels - Air conditioning units
Modern University for Technology & Information – Faculty of Engineering
Page 94
Code: MENG 320
Subject: Bsc Project Premium
Credit Hours = 3 hr. Lecture
Exercises
Practical
0
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Choice of topics and allocation - Refining problems- Initial scope research - Carrying out technical and economic analysis - Planning activities - Acquiring information - Initial design phase Code: MENG 321
Subject: B.Sc. Project
Credit Hours = 5 hr. Lecture
Exercises
Practical
1
3
8
Assessment
Defense
Research Phase
Design Phase
Production Phase
Assembly
40%
10%
10%
10%
10%
Final
Presentation & Supervisor opinion
20%
Content : Collection & technical data - Collection & theoretical background - Design and Technological procedures - Problem solving - Realization & design - Testing and inspection -Design & experiment - Writing technical report - Follow up & technical work - Assembly & components -Presenting the product data - Evaluation & product efficiency Code: MENG 322
Subject: Feasibility Studies
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction - Market Study Forecasting - Technical Study & Technology Selection Economical Study - Financial Analysis - Social Studies - Environmental Studies - Case Study Code: MENG 323
Subject: Environmental Management & Legislations
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Main Goals and Life Cycle - Definition of Project as a part of strategic plans - Project Stages Aspects to consider : Purpose , Activities and Participants - The Role of quality at different project stages - Contract Management - Legal and Contractual Aspects - Logistic of Owner and Contractor Organization - Duties, Responsibilities and Authority. - Introduction to basic principles to estimate costs and factors involved. Modern University for Technology & Information – Faculty of Engineering
Page 95
Code: MENG 324
Subject: Industrial Psychology
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Industrial Design-Design concepts-Ergonomics-Application of ergonomics-InstrumentsControls-Work place-Aesthetic and ergonomics consideration-Working conditions and Environment-Heating and Ventilation-Local Ventilation-Industrial Ventilation-Air condition systems-Check-Ozone-depletion and Global Warning -Noise – Expo sure to noise-Noise control-technique-Vibration-Lighting-Level of luminance-Factors-affecting the quality of lighting-Human effectiveness. Code: STR ( IV )
Subject: Field Training
Credit Hours = 5 hr. Lecture
Exercises
Practical
0
0
60
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Business area
Modern University for Technology & Information – Faculty of Engineering
Page 96
Modules of Production Engineering Department Phase III
Modern University for Technology & Information – Faculty of Engineering
Page 97
Code: PENG 301
Subject: System Dynamics & Vibration
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to system Dynamic System Classification, System Models - Multipart systems, Bond graph, Source – Load synthesis - Basic component Models (Mechanical, Electrical, hydraulic, Thermal), 1-Port, 2-Port, 3-Port junction elements, Causality for basic Multiport. System Models, construction method for Various Domains (Electric, Mechanical, hydraulic) State space Equations, Analysis of system Models. (First and second order systems) Simulation with MATLAB - Vibration of single DOF Systems. - Applications. - Vibration Measurement - Vibration of two and Multi- DOF systems - MATLAB Simulation Code: PENG 302
Subject: Mechanical System Design
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Mechanical system definition & classification - Reliability of mechanical systems - Design optimization - Case Studies - Rolling Machines - Simple Machines - Medium Sized Machines - More Complicated Machines. Code: PENG 303
Subject: Computer Aided Design & Manufacturing
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction of CAD/CAM – definition of CAD – Design process ( types of models of CAD – product design – assembly ) – computer graphics ( hardware – software – data structure )function related to CAD – data exchange – finite element methods- software application for design methods - Development in manufacturing system –principle of automation – database for CAM – CNC Programming – process sheet – manual programming – computer aided programming – CAM software
Modern University for Technology & Information – Faculty of Engineering
Page 98
Code: PENG 304
Subject: Design of Production Machines
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
0
3
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction, metal cutting and metal forming machines - Drives and mechanisms - Speed regulation and feed rate units - Design of machine structure - Design of guide ways - Design of spindle and spindle support - Dynamics of machine tools - Control systems - Design of presses
Code: PENG 305
Subject: Die Design
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction - Press tools operation - Die components and design - Punches, types and design Strippers, pilot, die stops and shank - Die material composition and heat treatment - Case studies - Plastic mould design Code: PENG 306
Subject: Design of Jigs & Fixtures
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction – mass production & supporting tools – jig elements & principles - fixtures – design of drilling fixture - design of drilling jigs – jig plates & accessories - standard jig kits – the effect of using jig & fixture on production cost
Code: PENG 307
Subject: Heat and Surface Treatment
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
2
3
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : The nature of surfaces and their properties - Metallic Wear - Contact Stress and strain - Rolling and sliding friction - Boundary Lubrication - Solid Lubricants - Wear resistant coatings - Heat treatment of steels - Different heat treatment and applications
Modern University for Technology & Information – Faculty of Engineering
Page 99
Code: PENG 308
Subject: Industrial Management
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Industrial Enterprises, Organization & Management - Linear Programming - Facility Location Facility Layout - Transportation Problems - Assignment Problems – Forecasting - Capacity Planning
Code: PENG 309
Subject: Computer Aided Product Design
Credit Hours = 3 hr. Lecture
Exercises
Lecture
2
0
2
Assessment Exerci ses 0
Lectu re 2
Exercises
Lecture
0
2
Exercis es 0
Lecture 2
Content : Introduction to product design - Design & process selection review - Designing for the customer Product development - Linking design & manufacturing - Process selection - Process flow design Process analysis - Designing for production - Metal parts (Case Study) - Designing for production, Plastics, Rubber, Ceramics. (Case Study). Code: PENG 310
Subject: Factory Planning & Organization
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
2
2
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Types and organization of Industrial Systems - Facility Location - Type of Layouts - Facility Layout Calculations - Personnel and management organization -Material and product handling Machinery and depreciation.
Modern University for Technology & Information – Faculty of Engineering
Page 100
Code: PENG 311
Subject: Automatic Control
Credit Hours = 3 hr.
Assessment
Lecture
Exercises
Practical
2
2
0
Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction, basic definitions and terminology - Mathematical topics - Transfer functions, definition and case studies - Block diagrams; conventions, block diagram algebra and reduction of block diagrams. - Signal flow graphs; definition, conventions and Mason’s formula - Time domain analysis - Transient response of proportional, integrating and first order elements - Transient response of second order elements. Effect of location of roots of characteristic equation on the transient response - System identification based of the transient response - Instruments, sensors and controllers - Level control - Flow control - Speed control Temperature control - Robotic arm control - Frequency response - Frequency response; Polar plot and Bode plots - System identification based of the transient and frequency responses Accuracy of feedback systems; steady state error - Stability of feedback systems; Routh Herwitz and Nyquest stability criteria - Root locus analysis - Compensation of control systems - Design and tuning of P, PI and PID controllers. Code: PENG 312
Subject: Quality Control
Credit Hours = 3 hr.
Assessment
Lecture
Exercises
Practical
2
2
0
Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction - Statistical applications - Control Charts – Sampling - ISO 9000-2000 - Using Computers and Simulations. Code: PENG 313
Subject: Digital Signal Processing
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Signal, System and Signal processing - Classification of Signals - The concept of Frequency in Continuous-Time and Discrete-Time Signals - Analogue-to-Digital and Digital-to-Analogue Conversion - Fourier series (FS) and Fourier Transform (FT) - Discrete Fourier Transform (DFT) and Its Inverse - Computational complexity of the DFT - Autocorrelation, CrossCorrelation, and Convolution - Z-transform and its inverse - Properties of the Z-transform Some applications of Z-transform in DSP - FIR, IIF filter design - Pattern Recognition
Modern University for Technology & Information – Faculty of Engineering
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Code: PENG 314
Subject: Metal Cutting Theory & Design
Credit Hours = 3 hr.
Assessment
Lecture
Exercises
Practical
2
1
2
Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction - Fundamentals of Machining - Cutting-tool material, cutting forces, energy, cutting fluids - Machining centres, advanced machining concepts and structure - Nonconventional machining - Fabrication of microelectronic devices and micro manufacturing Jigs and fixtures design - Tools design - Gauge design (snap and plug)
Code: PENG 315
Subject: Metal Forming Theory and Design
Credit Hours = 3 hr.
Assessment
Lecture
Exercises
Practical
2
1
2
Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Fundamentals of metal castings - Metal Casting processes, design, materials and economics Theory of metal forming and shaping processes - Rolling of metals - Forging - Extrusion and drawing - Processing of metal powders - Sheet metal forming processes - Processing of Ceramics, glass and superconductors - Designing of Moulds and Dies Code: PENG 316
Subject: Simulation of Industrial Systems
Credit Hours = 3 hr.
Assessment
Lecture
Exercises
Practical
2
2
0
Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Continuous and Discrete system simulation - Development of simulation models - Random number generation - Model Validation, and analysis of model output - Impact of nonlinearity and transient behaviour - Dynamic system analysis -Application of simulation packages. Code: PENG 317
Subject: Material Design
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
0
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : The design process - Criteria and concepts in design - Design tools - Materials selection process - Effect of composition, processing and structure on materials properties - Properties versus performance of materials - Manufacturing aspects of design
Modern University for Technology & Information – Faculty of Engineering
Page 102
Code: PENG 318
Subject: Technology of Plastics
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
0
3
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Types of plastic materials and their properties - Methods of producing thermo-plastic products -Methods of producing thermo-setting products - Plastic mould design - Plastic mould manufacturing techniques - Spark erosion and wire cutting CNC machines Code: PENG 319
Subject: Powder Metallurgy
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction - Characteristics and testing of powder – Manufacturing – Conditioning – Compactions - Sintering - Bearing materials - Tool materials - Ferrites and ceramics Dispersions, strengthened materials - Finishing operations.
Code: PENG 320
Subject: Mechanics of Fracture
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Product Liability and legislations - Methodology of failure investigation - Tensile fracture, brittle and ductile - Fatigue failure - High temperature failure - High strain rate failure Corrosion assisted failure - Wear process – mechanical - Wear process – chemo-mechanical Specific case studies Code: PENG 321
Subject: B.Sc. Project Premium
Credit Hours = 3 hr. Lecture
Exercises
Practical
0
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Choice of topics and allocation - Refining problems- Initial scope research - Carrying out technical and economic analysis - Planning activities - Acquiring information - Initial design phase
Modern University for Technology & Information – Faculty of Engineering
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Code: PENG 322
Subject: B.Sc. Project
Credit Hours = 5 hr. Lecture
Exercises
Practical
1
3
8
Assessment Final Defense
40%
Research Phase
10%
Design Phase
Production Phase
10%
10%
Assembly
10%
Presentation & Supervisor opinion
20%
Content : Collection & technical data - Collection & theoretical background - Design and Technological procedures - Problem solving - Realization & design - Testing and inspection -Design & experiment - Writing technical report - Follow up & technical work - Assembly & components -Presenting the product data - Evaluation & product efficiency
Code: PENG 323
Subject: Feasibility Studies
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0
Content : Introduction - Market Study Forecasting - Technical Study & Technology Selection Economical Study - Financial Analysis - Social Studies - Environmental Studies - Case Study Code: PENG 324
Subject: Environmental Management & Legislations
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0
Content : Main Goals and Life Cycle - Definition of Project as a part of strategic plans - Project Stages Aspects to consider : Purpose , Activities and Participants - The Role of quality at different project stages - Contract Management - Legal and Contractual Aspects - Logistic of Owner and Contractor Organization - Duties, Responsibilities and Authority. - Introduction to basic principles to estimate costs and factors involved.
Modern University for Technology & Information – Faculty of Engineering
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Code: PENG 325
Subject: Industrial Psychology
Credit Hours = 2 hr.
Assessment
Lecture
Exercises
Practical
Final Exam
Mid Term
Assignment
Attendance
Quizzes
2
0
0
40%
20%
15%
10%
15%
Practica l Exam 0
Content : Industrial Design-Design concepts-Ergonomics-Application of ergonomics-InstrumentsControls-Work place-Aesthetic and ergonomics consideration-Working conditions and Environment-Heating and Ventilation-Local Ventilation-Industrial Ventilation-Air condition systems-Check-Ozone-depletion and Global Warning -Noise – Expo sure to noise-Noise control-technique-Vibration-Lighting-Level of luminance-Factors-affecting the quality of lighting-Human effectiveness.
Code: STR ( IV )
Subject: Field Training
Credit Hours = 5 hr. Lecture
Exercises
Practical
0
0
60
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Business area
Modern University for Technology & Information – Faculty of Engineering
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Modules of Communication Engineering Department Phase II
Modern University for Technology & Information – Faculty of Engineering
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Code: ELTE 201 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Subject: Mathematics (III) Assessment Final Mid Assignment Exam Term 40% 20% 15%
Attendance
Quizzes
10%
15%
Practical Exam 0%
Content : Infinite series and expansion of functions-Ordinary differential equations: first order Separable, homogeneous, Exact, and linear Equations. nth order D.E with constant coefficients. (homogeneous and non homogeneous)- Functions of several variables: Partial differentiation, maximum and minimum values, Lagrange’s multipliers and conditional extrema, envelopes- Vectors analysis: gradient of scalar fields, divergence and curl of vector fields, Green's - Gauss's - Stoke's theorems Multiple integrals: double integral, triple integral, line integral and surface integral- Functions of complex variable: analytic functions, Cauchy theorem, bilinear transformations, conformal mapping complex differentiation, Complex integrals, Cauchy integral formula, Taylor's and Laurent's series, singular points poles, residue, complex integrals Contour integration. Code: ELTE 202 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Subject: Mathematics (IV) Assessment Final Mid Assignment Exam Term 40% 20% 15%
Attendance
Quizzes
10%
15%
Practical Exam 0%
Content : La-place transformations to elementary functions, and inverse La-place of functions, La-place transformations of derivatives and integrals, Solving D.E. using La-place transform. Fourier series, harmonic functions, Fourier integrals- Series solution of ordinary differential equations – Partial differential equations: one dimensional wave equation, separation of variables method, D’Alembert method, one dimensional heat equation- Special functions: gamma function, beta function, Legender’s polynomials, Hankel's and Bessel’s functions- Integral transformations (Fourier, Laplace, Bessel, etc.) Code: ELTE 203 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Subject: Mathematics (V) Assessment Final Mid Assignment Exam Term 40% 20% 15%
Attendance
Quizzes
10%
15%
Practical Exam 0%
Content : Numerical analysis: Finite differences, Newton’s polynomials, numerical integration, and numerical differentiation. Least squares method-Curve Fitting and approximation of functions-Numerical solution of differential equation-Solution of partial differential equations using finite difference and finite elements methods- Probability and statistics: Random Variables-Density Function-Gauss Distribution-Poison Distribution-Analysis of Matrices.
Modern University for Technology & Information – Faculty of Engineering
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Code: ELTE 204 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
1
Subject: Engineering Mechanics Assessment Final Mid Assignment Attendance Exam Term 40% 15% 10% 10%
Quizzes 10%
Practical Exam 15%
Content : Area moment of Inertia, Mass moment of Inertia-Statics: three dimensional statics using vector methodsKinematics: vector equations for an observer on non-rotating axes-Two dimensional problems (rolling contact of curved surfaces)-rolling motion with slipping and sliding elements in simple mechanics-Two dimensional rigid body Dynamics-energy, momentum and conservation laws-balancing of rotating and reciprocating masses-Vibration theory: derivation of mathematical model from practical case-single degree of freedom systems-free and forced vibrations, damping-Mechanical power transmission: transmission of rotational motion, Linkages, belt drivers-Velocity condition and involutes tooth shape, Efficiency and effective inertia. Code: ELTE 205 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Digital Systems (I) Assessment Final Mid Assignment Exam Term 40% 20% 10%
Attendance
Quizzes
10%
10%
Practical Exam 10%
Content : Introduction and review of numbers system. Decimal number system, binary number system, octal number systems, Hexadecimal number systems and other number system. 1's and 2's complement. Binary arithmetic operation: binary addition-binary subtraction-binary multiplication-binary division. Laws of Boolean Algebra. Logic gates and realization of logic function using Universal gates (ANDOR-NOT, NAND and NOR gates only). Logic functions representation and realization: Methods of representation of logic functions truth table, S.O.P and P.O.S) Logic function minimization using Kmap. Minimization of multiple-output Logic Functions. Combinational logic modules: half and full adders, parallel adder connection, look ahead carry adder, decoders, encoders, data selectors (multiplexers), de-multiplexers and parity checkers. Code: ELTE 206 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Logic Circuits Assessment Final Mid Assignment Exam Term 40% 20% 10%
Attendance
Quizzes
10%
10%
Practical Exam 10%
Content : Review of combinational logic modules. Fundamental concepts of digital circuits: logic families, logic levels, noise margins, fan-In, fan-Out, propagation delay, power dissipation and power delay product (PDP). Binary comparators. Sequential logic circuit elements state diagram and stat table representation of sequential circuits. Asynchronous and synchronous sequential elements. S-R Flip-flop, J-K flip-flop, DFlip-flop and T flip-flop. Racing in sequential circuits. Master –slave and Edge –triggered Flip-flops. Sequential Logic circuit modules Registers and shift registers. Asynchronous and synchronous counters. Counters using shift –registers (Johnson and ring counters). Read-only memories and Random access memories(basic cell, addressing and read-write operations).
Modern University for Technology & Information – Faculty of Engineering
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Code: ELTE 207 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Electromagnetic Fields Assessment Final Mid Assignment Attendance Exam Term 40% 15% 10% 10%
Quizzes 10%
Practical Exam 15%
Content : Guided waves between two conducting parallel plates, TE and TM waves and their characteristics, Velocities of propagation, Attenuation and quality factor, Wave impedance, Basic closed waveguides, TE and TM waves and their characteristics in rectangular wave guides, Waves solution in cylindrical coordinates, Micro strip transmission line, Attenuation and quality factor of a waveguide, Symmetric and asymmetric dielectric planar waveguide, effective index and normalized parameters, Hybrid modes in step index optical fibres, Propagation in multimode waveguide
Code: ELTE 208 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Digital Signal Processing Assessment Final Mid Assignment Attendance Exam Term 40% 20% 15% 10%
Quizzes 15%
Practical Exam 0%
Content : Signal, system and signal processing. Classification of signals. The concept of frequency in continuoustime and discrete-time signals. Analog-to-digital and digital-to-analog conversion Fourier series (FS) and Fourier Transform (FT), Discrete Fourier Transform (DFT) and its inverse, Autocorrelation , crosscorrelation, and convolution. Z- transform and its inverse. Design of the digital filters.
Code: ELTE 209 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
2
Subject: Electrical Circuits Assessment Final Mid Assignment Exam Term 40% 15% 10%
Attendance
Quizzes
10%
10%
Practical Exam 15%
Content : Introduction to circuit parameters, linear and nonlinear, lumped and distributed bilateral and unilateral, voltage current relation in basic circuit elements: resistance, inductance and capacitance. Part I Analysis of Electric Circuits with dc Excitation-Kirchhoff’s law-voltage and current dividers-circuit transformations: delta star and vice versa- voltage to current source transformation and vice versa-Mesh or loop method in circuit analysis-nodal method. Network theorems: compensation-reciprocity-proportionate-superposition-thevin's equivalent- Norton equivalentmaximum power transfer-millman's theorem - Part II Analysis of electric circuits with AC excitation Properties of the sinusoid- the average and RMS values-properties of the j operatormanipulation of complex numbers- the complex impedance- the phase diagram- the concept of complex power-the power factor and power factor correction-solution of ac circuits. The mutual coupling – the dot notation- the ideal transformer solution of circuit with inductive mutual coupling Resonance in electrical circuits: the concept of resonance series and parallel resonancequality factor, half power points, sidebands, bandwidth, detuning-The three-phase ac circuits: star Modern University for Technology & Information – Faculty of Engineering
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and delta configuration solution of three phase with symmetrical load- measurement of electric power-three and two wattmeter method. Part III Analysis of electrical circuits with non sinusoidal excitation-Circuits fed from a periodic non sinusoid voltage source:Fourier analysis of some regular periodic functions (square triangular, sowtooth, half wave rectifier, full wave rectifier, etc…)-The average and RMS values- the circuit power factor- power consumed Transients in electric circuits: circuits excited from a dc source; the series R-L circuits, the series R-C circuits (make and break), parallel R-L and parallel R-C circuits. Circuits excited from an ac source:Fourier analysis of some regular periodic functions (square triangular, saw tooth, half wave rectifier, full wave rectifier, etc…)The average and RMS values- the circuit power factor- power consumed-Transients in electric circuits: circuits excited from a dc source; the series R-L circuits, the series R-C circuits (make and break), parallel R-L and parallel R-C circuits.The two port network - The basic forms of the two port network. (Z-parameter, Y-parameters, ABCD, and CDBA, G, H), the interconnection of two or more Two port network- the feedback using two port network- filter networks.Part IV Analysis of electric circuits with non linear elements-The semigraphical solution of simple series/parallel non-linear elements- the series expansion method (Taylor's and MC Laurin's series) used in solving non linear networks. Application to magnetic circuits, transistor circuits, thermistor varistors circuits etc… Code: ELTE 210 Credit Hours = 4 hr. Lecture
Exercises
Practical
Subject: Solid State Electronic Circuits Assessment Final Mid Assignment Attendance Exam Term 40% 20% 10% 10%
Quizzes
Practical Exam 10%
2 3 2 10% Content : Crystals, Bonding, Basic elements of material science, electronic conduction in metals, electron in a periodic potential, energy bands and energy gaps in solids, Semiconductors, the Fermi level, electrons and holes, Intrinsic and extrinsic semiconductors, n-type and p-type, Diffusion and Drift Current, Excess carriers in semiconductors, Optical generation and recombination, the continuity equation, non homogenous doping, Pn-junction: I-V characteristics, Reverse saturation current depletion layer capacitance, Diffusion capacitance. Diode applications half- and full-wave rectifier, Zener diodes, Schottky barrier diodes, Light emitting diodes (LED)
Modern University for Technology & Information – Faculty of Engineering
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Code: ELTE 211 Credit Hours = 3 hr. Lecture
Exercises
Practical
1
1
3
Subject: Electric Engineering Testing Assessment Final Mid Assignment Attendance Exam Term 40% 15% 10% 10%
Quizzes 10%
Practical Exam 15%
Content : Units, Dimensions, and Standards-Types and Analysis of Errors in MeasurementsFundamentals of Analogue Instruments-Deflection Type Permanent Magnet Moving Coil and Electrodynamic Instruments-General Torque Equations-Galvanometers-DC Multi-Range Voltmeters, and Ammeters-AC Rectifier Type Voltmeters and Ammeters-Series and Multi-Range Ohmmeters-DC and AC Electro-dynamic Voltmeters, and Ammeters-DC and AC Electro-dynamic Wattmeter's. Series and parallel Resistances- Series and parallel Capacitors- Wheastone bridge- Voltage divider Loaded and unloaded- Power matching- Low pass and High pass Filters- Band pass Filters- Series and Parallel Resonance- Loaded and unloaded Transformer- diode in DC and AC circuit- Rectifier circuit- Bridge Rectifier circuit- Two pulse center Tap circuit. Code: ELTE 212 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Computer Application Assessment Final Mid Assignment Attendance Exam Term 40% 20% 15% 10%
Quizzes 15%
Practical Exam 0%
Content : MATLAP desktop tools and development environment. Manipulation of Matrices. Solution of systems of linear equations. Solution of differential equations. Fourier Transform. Plotting of data. Editing of M-files. DC and AC analysis.
Code: ELTE 213 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Electronic Engineering Assessment Final Mid Assignment Attendance Exam Term 40% 15% 10% 10%
Quizzes 10%
Practical Exam 15%
Content : Bipolar junction transistor (BJT): Eber-moll model, Static and dynamics characteristics, Transistor small signal models: Z-, y- and h- parameters. Analysis of audio frequency (AF) amplifiers: RC-coupled, Frequency response. Field effect transistors. (linear and nonlinear and pinch off regions), JFETs model and biasing. Insulated gate FETs: Types, Regions of operation, MOSFETs model and biasing. FETs applications: MOSFET as a resistance, JFET as a constant current source, Metal semiconductor contacts, MOS capacitors, Power devices, Device simulators. Elementary transistor stages, Common source, Common gate, Source follower
Modern University for Technology & Information – Faculty of Engineering
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Code: ELTE 214 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Communication System (I) Assessment Final Mid Assignment Attendance Exam Term 40% 15% 10% 10%
Quizzes 10%
Practical Exam 15%
Content : Introduction to communication& Basic concepts of communication process-Sources of informationCommunication channels & media-Representation of signals & systemsModulation process-Information theory & coding-Digital communication &communication networkClassification of signal &unit impulse function-Signals & operetorators, signal compression& correlation, signals & vectors-Trigonometric & exponential Fourier series-Signal & system analysis, Fourier transform and its properties, Fourier transform of periodic signals using dirac functions-Signal transmission over comm. Channel &signal distortion over a comm. channel, signal energy &power spectral densities &correlation-Continuous-wave amplitude modulation, amplitude mod (DSB-SC)- amplitude mod(AM),QAM,SSB,VSB modulations, carrier acquisition, supuhetrodyne, AM receive &TV modulation and demodulation-Angle modulation: Basic concepts of Angle modulation. Code: ELTE 215 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Communications Systems (II) Assessment Final Mid Assignment Attendance Exam Term 40% 15% 10% 10%
Quizzes 10%
Practical Exam 15%
Content : Digital communication over view-Information measure. Digital information sources, zero-memory source, Markov information source. Entropy of information sources. Source coding: instantaneous codes. Kraft's inequality. Code tree. Shannon’s source coding theorem. Compact codes, Huffman's coding procedure. Digital communication channel. Error- control coding : linear block coding, Hamming codes ,cyclic codes, convolutional codes.
Code: ELTE 216 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Electromagnetic Principles Assessment Final Mid Assignment Attendance Exam Term 40% 15% 10% 10%
Quizzes 10%
Practical Exam 15%
Content : Wave polarization-Wave reflection-Wave refraction-Wave diffraction-The transmission line-The smith chart and its application-The hollow rectangular waveguide-Resonators-The short dipole-Directivity-Gain and effective aperture-Antennas and radiation.
Modern University for Technology & Information – Faculty of Engineering
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Code: ELTE 217 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Electronic Circuits Assessment Final Mid Assignment Exam Term 40% 15% 10%
Attendance
Quizzes
10%
10%
Practical Exam 15%
Content : Feedback amplifiers, stability, root locus analysis, poles and zeros, multivibrators, pulse circuits, switched circuits. AF power amplifiers: Class-A, push-pull operation (Class-A, Class-B). Operational amplifiers (OPAMPs): Differential Amplifier and Current mirror -Difference amplifier, OPAMP specifications and frequency characteristics. OPAMP applications: Inverting, non-inverting, Adder, Subtracter, Integrator, Differentiator. Oscillators: Concept of stability and oscillations, OPAMP oscillators (rectangular, sinusoidal, Wien bridge, phase shift, and tuned circuits). Analog-to-digital (A/D) and digital-to analog (D/A) converters.
Code: ELTE 221 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
3
Subject: Analog and Digital Circuit design Assessment Final Mid Assignment Attendance Quizzes Exam Term 40% 15% 10% 10% 10%
Practical Exam 15%
Content : Basic analog building blocks (current mirrors, common- source, common- drain, common- gate, cascodedifferential pair), RF transceivers, Noise figure, harmonic distortion, Low Noise Amplifiers, Mixers, LC Oscillators, phase noise, RF frequency synthesis, RF Power Amplifiers (class A, class B, class C, class AB), Integration artifacts. CMOS Inverter: Noise margin, Propagation delay, Power dissipation, CMOS combinational circuits: Static design, Pass transistors and transmission gates, Dynamic design, CMOS sequential circuits: Latches, Flip- flops, Counters, Monostable Ring oscillator, Random Access Memory RAM, Read Only Memory ROM, Emitter Coupled Logic ECL, Bi CMOS circuits.
Code: ELTE 219 Credit Hours = 2 hr. Lecture
Exercises
Practical
1
1
2
Subject: Electronic Engineering Testing Assessment Final Mid Assignment Attendance Exam Term 40% 15% 10% 10%
Quizzes 10%
Practical Exam 15%
Content : Diode characteristics- Half wave and Full wave Rectifier- Clipping and Clamping- AND, OR,.. gatesZener diode characteristics- Input output characteristics of Common base Transistor- Current Control characteristics of Transistors-Transistor as a switch- Common Emitter Amplifier Biasing and Gain- Emitter Follower (Common Collector) Amplifier- Differential Amplifier and Current mirror- Cascaded TransistorsOperational Amplifier characteristics- Basic Op-amp Circuits[ Voltage Amplifier, voltage- to- current, current-to-voltage converters, D/A converter, A/D converter]- Active Filters- Op- amp OscillatorsSemiconductor Photodiode and Phototransistors Transducers-Data Acquisition Systems-D/Converters-A/D Converters. Modern University for Technology & Information – Faculty of Engineering
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Code: ELTE 220 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Computer Organization Assessment Final Mid Assignment Attendance Exam Term 40% 20% 15% 10%
Quizzes 15%
Practical Exam 0%
Content : Basic Computer organization and Design: Instruction Codes .Computer Registers. Computer Instructions .Timing and Control .Instruction Cycle Memory-Reference Instructions Input-Output and Interrupt Complete Computer Description. Design of Basic Computer Design of Accumulator Logic. Code: ELTE 220 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Civil Engineering Assessment Final Mid Assignment Exam Term 40% 20% 15%
Attendance
Quizzes
10%
15%
Practical Exam 0%
Content : Introduction to Civil Engineering-Types of Buildings-Surveying-Properties of Materials-Concrete manufacture and Curing-Soil Mechanics and Foundations-Sanitary work-Roads , Air ports and RailwaysQuantities and Specifications-Quality Control-Electrical Joints for Residential Structures and Nonresidential Structures. Code: ELTE 221 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
3
Subject: Analog and Digital Circuit design Assessment Final Mid Assignment Attendance Quizzes Exam Term 40% 15% 10% 10% 10%
Practical Exam 15%
Content : Basic analog building blocks (current mirrors, common- source, common- drain, common- gate, cascodedifferential pair), RF transceivers, Noise figure, harmonic distortion, Low Noise Amplifiers, Mixers, LC Oscillators, phase noise, RF frequency synthesis, RF Power Amplifiers (class A, class B, class C, class AB), Integration artifacts. CMOS Inverter: Noise margin, Propagation delay, Power dissipation, CMOS combinational circuits: Static design, Pass transistors and transmission gates, Dynamic design, CMOS sequential circuits: Latches, Flip- flops, Counters, Monostable Ring oscillator, Random Access Memory RAM, Read Only Memory ROM, Emitter Coupled Logic ECL, Bi CMOS circuits.
Modern University for Technology & Information – Faculty of Engineering
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Code: ELTE 222 Credit Hours = 4 hr. Lecture
Exercises
Practical
3
2
0
Subject: Theory of Machines & Design Assessment Final Mid Assignment Attendance Exam Term 40% 20% 15% 10%
Quizzes 15%
Practical Exam 0%
Content : Basic Considerations for the construction of machine elements-Strength criteria-Static and dynamic stress considerations-Shafts and axles-Key connections-Springs-Standard fastenings-Power screws-Pressure vessels -Riveted and weld connections-Couplings-Clutches and brakes.
Code: ELTE 223 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Manufacture Technology Assessment Final Mid Assignment Attendance Exam Term 40% 15% 10% 10%
Quizzes 10%
Practical Exam 15%
Content : Cutting tools (Materials, Geometry, Types and Design)-Forming presses (types, mechanisms and applications)-Metal cutting machine tools (Turning, Drilling. Boring, Milling, Shaping, planning, Broaching, Special purpose, Gear and thread cutting and Super finishing machine tools)-Power and motion transmission in machine tools-Machine tools attachments-Introduction to jigs and fixtures. Code: ELTE 224 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: System Dynamics & Control Component Assessment Final Mid Assignment Attendance Quizzes Exam Term 40% 15% 10% 10% 10%
Practical Exam 15%
Content : Introduction to Control Systems-Mathematical of Background-Mathematical modelling of Dynamic Systems( transfer function – block diagrams)-Transient Response Analysis-Transient response of proportional-Integrating and first order elements-Transient response of second order elements-Effect of location of roots of characteristic equation on the transient response-System identification based of the transient response-Basic Control Action of Control Systems and Error Analysis-Stability of feedback systems; Routh-Herwitz and Nyquest stability criteria.
Modern University for Technology & Information – Faculty of Engineering
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Code: ELTE 225 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Instrumentation Assessment Final Mid Assignment Exam Term 40% 20% 10%
Attendance
Quizzes
10%
10%
Practical Exam 10%
Content : System of Units of Measurements and Dimensions. Difference between Accuracy, Precision, Sensitivity, and Resolution. Error Types. Loading Effects. Analogy Measuring Equipment-CRT , deflection Amplifiers, time base-display systems& waveform display. Dual trace oscilloscopes, supplies, testing. Special types of oscilloscopes, digital storage oscilloscope. Measuring phase difference using oscilloscope. Measuring frequency using Lissajous Figure. Analog Electronic Millie-ammeters. Analog Electronic Voltmeters & ohmmeters. Digital electronic voltmeters, digital electronic frequency meters, reciprocal count, distortion meters, frequency Analyzers, spectrum analyzer, signal generators. Optoelectronic Instruments, Optical transducer and Fiber Optics Code: ELTE 226 Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Subject: Technical Report Writing Assessment Final Mid Assignment Attendance Exam Term 40% 20% 15% 10%
Quizzes 15%
Practical Exam 0%
Content : The types of technical reports-The components of short reports-The components of long reports-The method of writing and revising the report-Technical methods of reports presentation-The method of evaluate reports-Collecting the information-Using graphs and statistics-Selecting and structuring the material-Readability and editing reports-Presenting the findings-Concluding and recommendingSummarizing. Code: ELTE 226 Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Subject: Legislations Assessment Final Mid Assignment Exam Term 40% 20% 15%
Attendance
Quizzes
10%
15%
Practical Exam 0%
Content : The curriculum deals with the laws and the responsibilities and rights of interest to engineers-To discuss legislative contracts-Clarify the laws and legislation of interest to engineering in any field covered include examples of laws : the laws of the Engineers syndicate , contracts, city planning laws,The laws of the buildings construction, road works,Laws of dividing and protection the agricultural land,Industrial safety and security-Operational, jacks-Environmental protectionInsurance laws (accidents and fires)-Investment laws-The laws of irrigation-The relationship between landlord and the tenant-The laws of the post, union of industrial environmental law.
Modern University for Technology & Information – Faculty of Engineering
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Code: ELTE 228 Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Subject: Industrial Psychology Assessment Final Mid Assignment Attendance Exam Term 40% 20% 15% 10%
Quizzes 15%
Practical Exam 0%
Content : Industrial Design-Design concepts-Ergonomics-Application of ergonomics-InstrumentsControls-Work place-Aesthetic and ergonomics consideration-Working conditions and Environment-Heating and Ventilation-Local Ventilation-Industrial Ventilation-Air condition systems-Check-Ozone-depletion and Global Warning -Noise – Expo sure to noise-Noise control-technique-Vibration-Lighting-Level of luminance-Factors-affecting the quality of lighting-Human effectiveness. . Code: STR ( II ) Credit Hours = 5 hr. Lecture
Exercises
Practical
0
0
60
Subject: Field General Training Assessment Final Mid Assignment Attendance Exam Term 40% 15% 10% 10%
Quizzes 10%
Practical Exam 15%
Content : Business area.
Code: STR ( III ) Credit Hours = 5 hr. Lecture
Exercises
Practical
0
0
60
Subject: Factories & Practical Training Assessment Final Mid Assignment Attendance Exam Term 40% 15% 10% 10%
Quizzes 10%
Practical Exam 15%
Content : Business area.
Modern University for Technology & Information – Faculty of Engineering
Page 117
Modules of Communication Engineering Department Phase III
Modern University for Technology & Information – Faculty of Engineering
Page 118
Code: ELTE 301 Credit Hours = 2 hr. Lecture
Exercises
Practical
1
0
3
Subject: Data base Management Assessment Final Mid Assignment Attendance Exam Term 40% 20% 15% 10%
Quizzes 15%
Practical Exam 0%
Content : Introduction to Database-E-R Model concept-E-R Model Design-Normalization forms-SQL (structure query language) -Data base recovery.
Code: ELTE 302 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Electric Power & Machines Assessment Final Mid Assignment Attendance Exam Term 40% 15% 10% 10%
Quizzes 10%
Practical Exam 15%
Content : Circuit analysis of transformers-Transformer construction-Equivalent circuit of a transformerTransformer test-Construction of dc machines-Classification of dc machines-Circuit equations of dc machines-DC machine efficiency-Construction of induction motors-Torque-speed characteristicsEfficiency of induction motors-Circuit equations of synchronous machines-Construction of synchronous machines-Operation of synchronous machines. Code: ELTE 303 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Micro Processor Systems Assessment Final Mid Assignment Attendance Exam Term 40% 20% 15% 10%
Quizzes 15%
Practical Exam 0%
Content : Numbering and coding systems-Architecture of 8 bit and 16 bit microprocessor -Intel microprocessors form 8086 to Pentium-Inside the 8086/8088 microprocessor-Segment registers and addresses-80x86 addressing modes-Programming the 80x86 Directives-The 80x86 InstructionsMethods of address decoding-Programmed input/output.
Modern University for Technology & Information – Faculty of Engineering
Page 119
Code: ELTE 304 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Control Systems (I) Assessment Final Mid Assignment Exam Term 40% 15% 10%
Attendance
Quizzes
10%
10%
Practical Exam 15%
Content : Introduction to Control Systems- Mathematical of Background- Mathematical modelling of Dynamic Systems (transfer function-block diagrams-signal flow Graph-state space representationconventions and Mason’s formula)-Transient Response Analysis: Transient response of proportional, integrating and first order elements, Transient response of second order elements.Basic Control Action of Control Systems and Error Analysis.- Accuracy of feedback systems; steady state error-Stability of feedback systems; Routh-Herwitz and Nyquest stability criteria.Compensation of control systems Code: ELTE 305 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Control Systems (II) Assessment Final Mid Assignment Exam Term 40% 15% 10%
Attendance
Quizzes
10%
10%
Practical Exam 15%
Content : Steady State error analysis -Root locus technique -Frequency response analysis -Continuous and digital compensator design -Approximate digital controller -Controllability, -Observables and pole - Placement problem.
Code: ELTE 306 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Electromagnetic Waves Assessment Final Mid Assignment Attendance Exam Term 40% 15% 10% 10%
Quizzes 10%
Practical Exam 15%
Content : Plane wave and wave equation-Solution of wave equation-Sinusoidal time varying electromagnetic waves in free space-Phase velocity-Index of refractionGroup velocity-Uniform plane waves -The wave equation for conducting media-Conductors and dielectrics -Two plane wave traveling in opposite-The poynting theorem and electromagnetic power -Wave polarization-Transmission and reflection of planes waves of boundaries-The propagation of plane waves in ionized media.
Modern University for Technology & Information – Faculty of Engineering
Page 120
Code: ELTE 307 Credit Hours = 3 hr. Lecture
Exercises
Practical
Subject: Optical Electronics Assessment Final Mid Assignment Exam Term 40% 15% 10%
Attendance
Quizzes
Practical Exam 15%
2 1 2 10% 10% Content : Geometrical optics: Refraction of light, Prisms, Reflection of light, Lenses, Lens aberration. interaction of radiation and atomic systems. Review of Semiconductor Device Physics: Semiconductor optoelectronic materials, Energy bands. Homo and hetero junctions, Schottky and ohmic, band gap Engineering, Concepts of quantum wells; Semiconductor Active Devices: light matter Interaction in semiconductor, Rates of emission and absorption. Photo and Electroluminescence; Structure and device characteristics; LEDs, Semiconductor Laser: basic structure, theory and device characteristics, DFB, DBR, Quantum well and VCSE Lasers, , Semiconductor laser, DC and AC characteristics, Semiconductor laser modulation Laser diode arrays; Semiconductor Passive devices: Types of photo detectors: photoconductors and photodiodes, PIN and avalanche photodiodes ( APDs), Applications. Detector characteristics and device performance, phototransistors, solar cells and CCDs; Photovoltaic Cells: Optoelectronic integrated circuits (OEICs); electro-optic and nonlinear optical fast-switching devices.
Code: ELTE 308 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Microwaves Electronic Engineering Assessment Final Mid Assignment Attendance Exam Term 10% 10% 40% 15%
Quizzes 10%
Practical Exam 15%
Content : Plane waves in free space, dielectrics-Reflection and refraction of plane waves-Microwave power and energy-Waveguides and trans-lines-Rectangular waveguide-Circular waveguide-Coaxial and micro strip lines-Attenuation in waveguides-Impedance transformation and matching-Voltage and current wavesStanding waves and VSWR-Smith Chart-Single and double stub matching
Code: ELTE 309 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Integrated Circuits Assessment Final Mid Assignment Exam Term 40% 20% 10%
Attendance
Quizzes
10%
10%
Practical Exam 10%
Content : Introduction to VLSI terminologies. Introduction to CMOS circuits. MOS transistor switches. CMOS Logic-Circuit and system representation. MOS transistor theory, NMOS and PMOS enhancement transistor. MOS design equations. Clean room characteristics. Small signal AC characteristics. The complementary CMOS inverter-DC characteristics. CMOS processing technology. Basic CMOS technology. CMOS process enhancements. Layout and lambda-based design rules. Circuit characterization and performance estimation. Resistance and capacitance estimation. Switching characteristics, Power dissipation, and Power Delay Product (PDP) calculations.
Modern University for Technology & Information – Faculty of Engineering
Page 121
Code: ELTE 310 Credit Hours = 3hr. Lecture
Exercises
Practical
2
1
2
Subject: Antennas & Waves Propagation Assessment Final Mid Assignment Attendance Exam Term 40% 15% 10% 10%
Quizzes 10%
Practical Exam 15%
Content : Introduction to antennas-Basic antenna parameters, Measurement Techniques of antenna parametersMathematical tools for antenna analysis and design-Wire antennas-Dipole (infinitesimal, small, finite length, long)-Loop antenna (circular and square)-Special types of wire antennas (Helix and Yagi)-Aperture antennas-Rectangular and circular aperture-Micro-strip antennas-Horn antennas-Reflector antennas-Array antennas-N-element linear array of uniform and non-uniform amplitude and spacing-Binomial arrayDolph-Tschebyscheff array-Planer array.
Code: ELTE 311 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Communication Networks Assessment Final Mid Assignment Attendance Exam Term 40% 20% 15% 10%
Quizzes 15%
Practical Exam 0%
Content : Basic concepts- The OSI model – Physical layer – Multiplexing – Data link control layer - Data link control protocols – HDLC protocol – Network layer addressing- IP4 – IP6 –Routing – Transport Layer – Application layer. Code: ELTE 312 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Digital Communications Assessment Final Mid Assignment Attendance Exam Term 40% 15% 10% 10%
Quizzes 10%
Practical Exam 15%
Content : Introduction to pulse & digital communication-Types of pulse modulation-Analog pulse modulation-Digital pulse modulation-Sampling Theory-Standard pulse code Modulation & Modified types of digital pulse Modulation-Delta & Delta –segma differential pulse code modulation-Introduction to digital modulationDigital Transmission & Digital Radio communication-FSK Modulation &PSK Modulation-Multi phase PSK Modulation, Carrier Recovery & clock recovery-Random noises-Analog & Digital Communication System-Analog & Digital Communication System behaviour in noise.
Modern University for Technology & Information – Faculty of Engineering
Page 122
Code: ELTE 313 Credit Hours = 2 hr. Lecture
Exercises
Practical
2
1
0
Subject: Optical Communication System Assessment Final Mid Assignment Attendance Exam Term 40% 20% 15% 10%
Quizzes 15%
Practical Exam 0%
Content : Why optic communication- Overview of Optical fibre communication Structure and kinds of fibresPropagation of light in fibre-Noise analysis in fibre systems-Bandwidth limitation in fibre system-Principles of ray-optics-Wave nature of light-Particle nature of light-Light sources-Fundamentals of light detectorsDigital and Analog detectors and preamplifiers- Optical fibre power launching and coupling- Optical receiver operation—digital transmission system- Point to point links – System Considerations. Code: ELTE 314 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Satellite Communications Assessment Final Mid Assignment Attendance Exam Term 40% 15% 10% 10%
Quizzes 10%
Practical Exam 15%
Content : Communication satellite system, Orbiting satellites, The satellite channel, Link calculation, Satellite electronics, Frequency division multiple access, Time division-multiple access and code division multiple access, On board processing
Code: ELTE 315 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Subject: Mobile Phone Systems Assessment Final Mid Assignment Attendance Exam Term 40% 20% 15% 10%
Quizzes 15%
Practical Exam 0%
Content : Basic concepts of mobile communications, Cell site planning, Traffic engineering, RF propagation characteristics, Fading and Path loss phenomena, Noise in cellular systems, Frequency planning, Frequency reuse, Types of interference. GSM system, Multiple access techniques, GSM architecture, TDMA frame structure, Types of bursts, Mapping of logical channels on physical channels, Bit interleaving, Modulation, Frequency hopping, Power control, Carrier and burst synchronization, CDMA spread spectrum systems, Types of codes and power control in CDMA
Modern University for Technology & Information – Faculty of Engineering
Page 123
Subject: Radar Engineering Systems
Code: ELTE 316 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Mid Exam Term 40% 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : An introduction to Radar-The radar Equation-Tracking Radar-Signal and data processing-Secondary surveillance Radar-Radar subsystems-Remote sensing Radar. Code: ELTE 317 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Advanced Automatic Control Assessment Final Mid Assignment Attendance Exam Term 40% 15% 10% 10%
Quizzes 10%
Practical Exam 15%
Content : Stability Analysis of Control System-Root Locus Method-Frequency Response Analysis-Control System Design by Root Locus-Control Systems Design by Frequency Response. Code: ELTE 318 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Industrial Electronics Assessment Final Mid Assignment Attendance Exam Term 40% 15% 10% 10%
Quizzes 10%
Practical Exam 15%
Content : Power semiconductor devices modelling-Simulation methods-Traditional and modern controllersScalar and vector control of AC drives-Higher power electronics thyristors, the silicon control switch, single phase control of DC-Phase control of TRIAC circuits-Thyristor protection. Code: ELTE 319 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Robot Systems and Technology Assessment Final Mid Assignment Attendance Exam Term 40% 20% 15% 10%
Quizzes 15%
Practical Exam 0%
Content : Static and dynamics of robots-Differential motion and Jacobean matrix of Robot-Path planning in joint and Cartesian space-Robot feedback-Robot control (Power-motion)-Robot vision-Robot programming
Modern University for Technology & Information – Faculty of Engineering
Page 124
Code: ELTE 320 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Subject: Neural Networks Assessment Final Mid Assignment Exam Term 40% 20% 15%
Attendance
Quizzes
10%
15%
Practical Exam 0%
Content : Introduction to natural neural networks, artificial neural networks and parallel processing-Main component of neural networks-Neural network classification-Supervisor learning-Unsupervised learning-Neural networks deployment-Data gathering-Network structure-Learning algorithms-Several models of neural network-Honfield model-Boltzman model-Neural networks and expert systems-Neural network applications. Code: ELTE 321 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Subject: Expert Systems Assessment Final Mid Assignment Exam Term 40% 20% 15%
Attendance
Quizzes
10%
15%
Practical Exam 0%
Content : Revision on Artificial Intelligence basics-Knowledge representation methods-Expert system architectureKnowledge basis-User interface-Interference engine-Rules. Code: ELTE 322 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Subject: Artificial Intelligence Assessment Final Mid Assignment Attendance Exam Term 40% 20% 15% 10%
Quizzes 15%
Practical Exam 0%
Content : Artificial Intelligence basics-Heuristic search-Symbolic knowledge-Logic calculus-Knowledge engineering and expert systems-Natural language processing-Knowledge representation-Robot-Applications-Artificial Intelligence languages-Computer vision-Neural networks-Prolog language-Application on Artificial Intelligence field. Code: ELTE 323 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Subject: Programmable Logic Controllers Assessment Final Mid Assignment Attendance Exam Term 40% 20% 15% 10%
Quizzes 15%
Practical Exam 0%
Content : Introduction and history-Architecture, CPU and Memory-Power Supply-Input and Output-InterfacingProgramming-Applications.
Modern University for Technology & Information – Faculty of Engineering
Page 125
Code: ELTE 324 Credit Hours = 3 hr. Lecture
Exercises
Practical
0
4
0
Subject: B.Sc. Project Premium Assessment Final Mid Assignment Attendance Exam Term 40% 20% 15% 10%
Quizzes 15%
Practical Exam 0%
Content : Understanding the project objective and the area of research – Collection of background information. Requirements specification. Breakdown of the project into separate tasks for the project team members. Search for similar projects. Carrying out technical analysis. Preliminary subsystems design. Computer simulation. Search for the supplier of needed software and hardware. Code: ELTE 325 Credit Hours = 5 hr.
Subject: B.Sc. Project Assessment Presentation
Lecture
Exercises
Practical
Final Defense
Research Phase
Design Phase
Production Phase
Assembly
& Supervisor opinion
1
3
8
40%
10%
10%
10%
10%
20%
Content : Collection of relevant technical data- acquisition of needed software and hardware. Updating the subsystems design and the technological procedures -Realization of designed subsystems- Integrating the subsystems-Testing and inspection -Writing technical report-Presenting the product data-Evaluation & product efficiency. Code: ELTE 326 Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Subject: Engineering Economics Assessment Final Mid Assignment Attendance Exam Term 40% 20% 15% 10%
Quizzes 15%
Practical Exam 0%
Content : Cash Flow-Compound Interest:-Time Value of Money-Nominal and Effective Interest-EquivalenceEngineering Problem Analysis: -Depreciation - Income Taxes. Code: ELTE 327 Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Subject: Feasibility Studies Assessment Final Mid Assignment Exam Term 40% 20% 15%
Attendance
Quizzes
10%
15%
Practical Exam 0%
Content : Introduction to Industry-Market Study-Project gap and plant size-Technical studies-Technology selection-Project Scheduling-Economical study-Social study-Environmental study-Financial AnalysisResource Management.
Modern University for Technology & Information – Faculty of Engineering
Page 126
Code: ELTE 328 Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Subject: Environmental Impact of Communication Systems Assessment Final Mid Practical Assignment Attendance Quizzes Exam Term Exam 40% 20% 15% 10% 15% 0%
Content : Pollution in communication instruments – Pollution of mobiles phones – Pollution of waves network – Different ways to determine the environmental effects on communication systems – ISO14000 – Environmental control and International specifications. Code: STR ( IV ) Credit Hours = 5 hr. Lecture
Exercises
Practical
0
4
0
Subject: Field Training Assessment Final Mid Assignment Exam Term 40% 15% 10%
Attendance
Quizzes
10%
10%
Practical Exam 15%
Content : Business area
Modern University for Technology & Information – Faculty of Engineering
Page 127
Modules of Bio-Electronics Engineering Department Phase II
Modern University for Technology & Information – Faculty of Engineering
Page 128
Code: BIO 201
Subject: Mathematics (III)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content: Infinite series and expansion of functions. - Ordinary differential equations: first order Separable, homogeneous, Exact, and linear Equations. nth order D.E with constant coefficients.(homogeneous and non homogeneous)-Functions of several variables: Partial differentiation, maximum and minimum values, Lagrange’s multipliers and conditional extrema, envelopes - Vectors analysis: gradient of scalar fields, divergence and curl of vector fields, Green's - Gauss's - Stoke's theorems Multiple integrals: double integral, triple integral, line integral and surface integral. - Functions of complex variable: analytic functions, Cauchy theorem, bilinear transformations,conformal mapping complex differentiation, Complex integrals, Cauchy integral formula, Taylor's and Laurent's series, singular points poles, residue, complex integrals Contour integration. Code: BIO 202
Subject: Mathematics (IV)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content: La-place transformations to elementary functions, and inverse La-place of functions, La-place transformations of derivatives and integrals, Solving D.E. using La-place transform.-Fourier series, harmonic functions, Fourier integrals.- Series solution of ordinary differential equations -Partial differential equations: one dimensional wave equation, separation of variables method, D’Alembert method, one dimensional heat equation - Special functions: gamma function, beta function, Legender’s polynomials, Hankel's and Bessel’s functions. Integral transformations (Fourier, Laplace, Bessel, etc.)
Code: BIO 203
Subject: Mathematics (V)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content: Numerical analysis: Finite differences, Newton’s polynomials, numerical integration, and numerical differentiation. Least squares method. - Curve Fitting and approximation of functions. Numerical solution of differential equation. - Solution of partial differential equations using finite difference and finite elements methods. Probability and statistics: Random Variables. - Density Function. - Gauss Distribution. - Poison Distribution. - Analysis of Matrices.
Modern University for Technology & Information – Faculty of Engineering
Page 129
Code: BIO 204
Subject: Engineering Mechanics
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Area moment of Inertia, Mass moment of Inertia - Statics: three dimensional statics using vector methods - Kinematics: vector equations for an observer on non-rotating axes - Two dimensional problems (rolling contact of curved surfaces) - Rolling motion with slipping and sliding elements in simple mechanics - Two dimensional rigid body Dynamics - Energy, momentum and conservation laws - Balancing of rotating and reciprocating masses - Vibration theory: derivation of mathematical model from practical case - Single degree of freedom systems - Free and forced vibrations, damping - Mechanical power transmission: transmission of rotational motion,Linkeages, belt drivers. - Velocity condition and involutes tooth shape, Efficiency and effective inertia. Code: BIO 205
Subject: Engineering Design (I)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Continued use of limits and fits - Introduction to and use of geometrical tolerances and surface finish specifications - Use of functional design and manufacturing datums. -Machine features including cams. - Machine and screw threads. - Typical machine element - Systematic design for form and function, welding and weld symbols. - Brazing, soldering, use of fasteners. - Casting and forging. - Manufacturing details including casting drawings and welded sub-assemblies - Design for machining and assembly. Code: BIO 206
Subject: Engineering Design (II)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to design process with emphasis on iterative nature. - Problem identification and specification, conceptual design. - Assessment of alternative ideas and analysis of chosen idea with due consideration of imposed constraints, e.g. performance, cost and manufacture. - Design report presentation. - Further detail design including springs, bearings and seal selection and keyway design. - Power transmission elements such as electric motors , gears , chain , belts etc. - Cost and value analysis and engineering for simple design products
Modern University for Technology & Information – Faculty of Engineering
Page 130
Code: BIO 207
Subject: Strength of Materials
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content: Introduction to static - Direct stress strain: principles of stress and strain. - Elastic modulus, factors of safety.- Non-uniform bars, compound bars. - Thermal stresses, strain energy and resilience.Shock loading, stresses in rotating arms. - Types of installations and strength - Focal points and reactions. - Beams under concentrated or distributed loads. - Vertical power and shear force of the deformed. - Stresses and theories collapse of the installations. Code: BIO 208
Subject: Production Engineering (III)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction, source of wealth, the role of manufacturing, engineering materials, basic process Solidification: (i) Expendable mould processes: sand casting, shell moulding, investment casting. (ii) Permanent mould processes: gravity and pressure die casting, injection moulding.-Bulk deformation: steady and non-steady state processes, hold and cold working, forging, rolling and extrusion. - Material removal: machining methods, metal cutting, development of cutting tools, forming and generating, single-point, multi-point and random-point machining, sheet-metal working. - Specialised machining methods: electrical, electrochemical, chemical, thermal.-Surface texture: nature of surface, functional requirements, economic constraints, methods of measurements. Joining processes: permanent and non- permanent, mechanical joining methods, welding, soldering and brazing
Modern University for Technology & Information – Faculty of Engineering
Page 131
Code: BIO 209
Subject: Electrical Circuits
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction to circuit parameters, linear and nonlinear, lumped and distributed bilateral and unilateral, voltage current relation in basic circuit elements: resistance, inductance and capacitance. Part I Analysis of Electric Circuits with dc Excitation-Kirchhoff’s law-voltage and current dividers-circuit transformations: delta star and vice versa- voltage to current source transformation and vice versa-Mesh or loop method in circuit analysis-nodal method. Network theorems: compensation-reciprocity-proportionate-superposition-thevin's equivalent- Norton equivalentmaximum power transfer-millman's theorem - Part II Analysis of electric circuits with AC excitation Properties of the sinusoid- the average and RMS values-properties of the j operatormanipulation of complex numbers- the complex impedance- the phase diagram- the concept of complex power-the power factor and power factor correction-solution of ac circuits. The mutual coupling – the dot notation- the ideal transformer solution of circuit with inductive mutual coupling Resonance in electrical circuits: the concept of resonance series and parallel resonancequality factor, half power points, sidebands, bandwidth, detuning-The three-phase ac circuits: star and delta configuration solution of three phase with symmetrical load- measurement of electric power-three and two wattmeter method. Part III Analysis of electrical circuits with non sinusoidal excitation-Circuits fed from a periodic non sinusoid voltage source:Fourier analysis of some regular periodic functions (square triangular, sowtooth, half wave rectifier, full wave rectifier, etc…)-The average and RMS values- the circuit power factor- power consumed Transients in electric circuits: circuits excited from a dc source; the series R-L circuits, the series R-C circuits (make and break), parallel R-L and parallel R-C circuits. Circuits excited from an ac source:Fourier analysis of some regular periodic functions (square triangular, saw tooth, half wave rectifier, full wave rectifier, etc…)The average and RMS values- the circuit power factor- power consumed-Transients in electric circuits: circuits excited from a dc source; the series R-L circuits, the series R-C circuits (make and break), parallel R-L and parallel R-C circuits.The two port network - The basic forms of the two port network. (Z-parameter, Y-parameters, ABCD, and CDBA, G, H), the interconnection of two or more Two port network- the feedback using two port network- filter networks.Part IV Analysis of electric circuits with non linear elements-The semigraphical solution of simple series/parallel non-linear elements- the series expansion method (Taylor's and MC Laurin's series) used in solving non linear networks. Application to magnetic circuits, transistor circuits, thermistor varistors circuits etc…
Modern University for Technology & Information – Faculty of Engineering
Page 132
Subject: Solid State Electronic Circuits
Code: BIO 210
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Semiconductor Materials, P-N Junctions, The P-n diode current (ideal characteristic),Reverse bias break down, Avalanche break down, zener breakdown. - The basic structure and aperation of Bipolar Junction Transistors ,its characteristics and applications - Metal – Semiconductor Junctions structure, The structure of Field Effect transistors ,MOSFET types and characteristics Operational amplifiers :ideal op-amp, inverting ,non- inverting and differential configuration Thevevin equivalent circuit of an op-amp, non-idealities including finite open-loop gain. - Offset voltage ,bias voltage ,common-mode amplification - Power supply rejection ratio, A C amplification including roll-off, bandwidth and stability. - Transducers and signal conditioning Thermal Transducers and mechanical Transducers for linear and angular displacement. - Linear and angular velocity, acceleration and vibration. - Pressure transducers and load cells. - Flow measurement, optical transducers. Code: BIO 211
Subject: Instrumentations
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Analog Measuring Equipment Telephoning; - Analog Electronic Millie-ammeters. - Analog Electronic Voltmeters & ohmmeters. - Digital Electronic Voltmeters. - CRT, Deflection Amplifiers, Time base - Display systems& waveform display - Dual Trace Oscilloscopes, supplies, testing - Special types of oscilloscopes - Digital Storage Oscilloscope - Measuring phase difference using oscilloscope - Measuring frequency using Lissajous Figure. - Digital Electronic Frequency meters, reciprocal count.- Distortion meters.- Frequency Analyzers and how to use it.
Code: BIO 212
Subject: Computer Applications
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
0
2
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to MATLAB. - Matrix operations, Array operations Vectors and matrix operations. Graphing. - Data analysis - Control Flow. - M – Files. - Advanced programming in MATLAB Introduction to simulink - Computer Application using MATLAB Mathematical Models of systems.
Modern University for Technology & Information – Faculty of Engineering
Page 133
Code: BIO 213
Subject: Thermodynamics
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Basic definition and system approach, process and cycles, zeroth law of thermodynamics and temperature measurement, microscopic and macroscopic viewpoints-The first law of thermodynamics for closed systems, work and heat transfers-Determination of work transfer for special cases, compression of heat and work transfer-Energy conservation in closed thermal systems, internal energy and application of The first law of thermodynamics-Pure substance, phases and phase change, critical point and triple point, the two property rule-Equations of state, perfect gas, specific heats of the fluids, properties of wet vapours, dryness fraction-The first law of Thermodynamics for open systems ( control volumes)-Energy transfers for open systems and environment, concept of flow energy, unsteady flow energy equation-Simplification to steady flow energy equation, practical examples of application of the steady flow energy equation-The second law of thermodynamics, heat engines and heat pumps-Thermal efficiency, the reversible process, the Carnot cycle-Thermodynamic temperature, inequality of Clausius, entropy-a macroscopic property. - Calculation of entropy changes for gas and vapours, a physical interpretation entropy. Code: BIO 214
Subject: Fluid Mechanics
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction to fluid mechanics and fluid properties-Hydrostatics including forces on immersed bodies and manometry-Fluid Statics and kinematics-Dimensional analysis-Fluid-flow description and kinematics-Continuity equations, moment equations and energy equations-Integral equations of arbitrary size-Mass reservation equation-Equivalent quantity of linear survival movementEquivalent quantity of circular movement-Energy equation-Bernoulli equation-Applications of fluid motion-Flow around bodies, introduction to the concept of boundary layer flows, and the definition of drag coefficient. Code: BIO 215
Subject: Anatomy & Physiology
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
2
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : General introduction-Neck, Scalp, temple and face, Mouth and pharynx-Nose and Para nasal sinuses, Brain-Introduction to the upper limb, Thorax, Pericardium and heart-Trachea, oesophagus and thoracic duct, Abdomen and pelvis, Urinary bladder- Rectum and anal canal Lower limbs, Femur, Thigh, Front of leg, dorsum of foot, lateral and medial.
Modern University for Technology & Information – Faculty of Engineering
Page 134
Code: BIO 216
Subject:
Bio Electronics Engineering
Credit Hours = 3 hr. Lecture
Exercises
Lecture
2
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment Attendance 10%
10%
Quizzes 10%
Practical Exam 15%
Content : Bipolar junction transistor (BJT): Eber-moll model, Static and dynamics characteristics, Transistor small signal models: Z-, y- and h- parameters. Analysis of audio frequency (AF) amplifiers: RC-coupled, Frequency response. Field effect transistors. (linear and nonlinear and pinch off regions), JFETs model and biasing. Insulated gate FETs: Types, Regions of operation, MOSFETs model and biasing. FETs applications: MOSFET as a resistance, JFET as a constant current source, Metal semiconductor contacts, MOS capacitors, Power devices, Device simulators. Elementary transistor stages, Common source, Common gate, Source follower
Code: BIO 217
Subject: Imaging Technology
Credit Hours = 3 hr. Lecture
Exercises
Lecture
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment Attendance 15%
10%
Quizzes 15%
Practical Exam 0%
Content : X- Ray machines and digital radiography-X-Ray computed tomography - Ultrasonic imaging system-CT – Image processing tools – Matlab applications
Code: BIO 218
Subject: Waves and Radiating Systems
Credit Hours = 3 hr. Lecture
Exercises
Lecture
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment Attendance 15%
10%
Quizzes 15%
Practical Exam 0%
Content : Guided waves between two conducting parallel plates, TE and TM waves and their characteristics, Velocities of propagation, Attenuation and quality factor, Wave impedance, Basic closed waveguides, TE and TM waves and their characteristics in rectangular wave guides, Waves solution in cylindrical coordinates, Micro strip transmission line, Attenuation and quality factor of a waveguide, Symmetric and asymmetric dielectric planar waveguide, effective index and normalized parameters,Hybrid modes in step index optical fibres, Propagation in multimode waveguide
Modern University for Technology & Information – Faculty of Engineering
Page 135
Code: BIO 219
Subject: Micro - Computing Engineering
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
0
3
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction to micro-computer-The operation of central processor. - Stack organization and its operation-Instructions forms and address types. - Collecting the information about Microcontroller. Basic structure of Microcontroller and Microprocessor-Theory of operation of MicrocontrollerMicrocontroller language (assembly)-Microcontroller language (micro C)-Design arithmetic unitSummarising.
Code: BIO 220
Subject: Electrical Drives Systems
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
0
3
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Dynamic models of synchronous machines excitation system turbines governors load-Modelling of single machine infinite Bus system-Mathematical modelling of multination system-Dynamic and transient stability analysis of single machine and multi-machine systems-Power systems stabilizer design for multi machine systems-Dynamic equivalency-Techniques for the improvement of stability.
Code: BIO 221
Subject: Bio- Medical Engineering
Credit Hours = 3 hr. Lecture
Exercises
Lecture
2
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment Attendance 10%
10%
Quizzes 10%
Practical Exam 15%
Content : Heart ( ECG – Temp – EEG) – Sensors –physics of ear – pulse oximeter – dental devices – sleep lab – pulmonary lab – mechanics of ventilation
Modern University for Technology & Information – Faculty of Engineering
Page 136
Code: BIO 222
Subject:
Civil Engineering
Credit Hours = 3 hr.
Assessment
Lecture
Exercises
Lecture
2
1
2
Final Exam 40%
Mid Term 15%
Assignment Attendance 10%
10%
Quizzes 10%
Practical Exam 15%
Content : Introduction to Civil Engineering - Types of Structures-Surveying-Properties of Materials-Soil Mechanics and Foundations-Concrete Skeletons - Steel Skeletons-Civil works and Engineering Measurements-Electrical Joints for Residential Structures and Non-residential Structures-Quality Control. Code: BIO 223
Subject: Stress Analysis for Human Body
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Equilibrium of simple mechanical systems- Normal ,shear force ,bending moment and twisting moment in structure-Stress in subjected to simple and combined loading-Application to the human hands and legs during walking ,running ,and caring load -Stresses in two and three dimensionUsing computer programming in analysis of the structure
Code: BIO 224
Subject: System Dynamics for Human Body
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : N Skeletal muscles and force generation-Two joint and multi-joint muscles-Skeletal system component-Biomechanics and human body-Kinetics & kinematics-Equations of motions-Linear impulse and momentum.
Modern University for Technology & Information – Faculty of Engineering
Page 137
Code: BIO 226
Subject:
Logic Circuits
Credit Hours = 4 hr. Lecture 2
Exercises 2
Assessment
Lecture 3
Exercises Lecture 40% 15%
Exercises 10%
Lecture 10%
Exercises 10%
Lecture 15%
Content : Binary systems: Binary numbers- Number base conversions- Octal & Hexadecimal numbersComplements- Signed binary numbers- Binary Codes. Boolean Algebra & Logic Gates: Basic Definitions- Boolean Algebra- Basic Theorems & properties of Boolean Algebra- Boolean Functions- Canonical & Standard Forms- Digital Logic Gates.Gate Level Minimization: The Map Method- Four variable Map- Five variable Map- Product of sum simplification- Don’t Care Conditions- NAND & NOR ImplementationTwo level Implementation- Exclusive OR Function. Combinational Logic: Combinational Circuits- analysis Procedure- Design Procedure- Binary Adder & Subtractor- Binary Multiplier- Decoders- Encoders- Multiplexers. Synchronous Sequential Logic: Sequential Circuits- Latches- Flip Flops- Analysis of Clocked Sequential Circuits- State Reduction- Design Procedure. Registers & Counters: Registers- Shift Registers- Ripple Counters- Synchronous Counters. Memory & programmable Logic: Randam Access Memory- Memory Decoding- Read only Memory- Programmable Logic Memory- Programmable array Logic.
Code: BIO 226 Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Subject: Digital Signal Processing Assessment Final Mid Assignment Attendance Exam Term 40% 20% 15% 10%
Quizzes 15%
Practical Exam 0%
Content : Signal, system and signal processing. Classification of signals. The concept of frequency in continuoustime and discrete-time signals. Analog-to-digital and digital-to-analog conversion Fourier series (FS) and Fourier Transform (FT), Discrete Fourier Transform (DFT) and its inverse, Autocorrelation , crosscorrelation, and convolution. Z- transform and its inverse. Design of the digital filters.
Code: BIO 227
Subject: Technical Reports Writing
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : The types of technical reports-Short reports the components-Long reports components-Writing systems and audit reports-Methods of technical presentation of reports.-Collecting the informationUsing graphs and statistics-Selecting and structuring the material-Readability and editing reportsPresenting the findings-Concluding and recommending-Assessment of reports
Modern University for Technology & Information – Faculty of Engineering
Page 138
Code: BIO 228
Subject: Legislations
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Dealing with the laws and the responsibilities and rights of interest to engineers to discuss legislative contracts-Clarify the laws and legislation of interest to engineering in any field covered includes examples of laws: and the laws of the Engineers syndicate, contracts, city planning lawsThe laws of the buildings construction-Laws of dividing and protection the agricultural landIndustrial safety and security-Environmental protection-Insurance laws (accidents and fires)Investment laws-The laws of irrigation-The relationship between landlord and the tenant-Union of industrial- Environmental law. Code: BIO 229
Subject: Projects Evaluation
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Knowledge about systems used to evaluate project-Technical evaluation for project-Economy studies for project-Social evaluation for project.-Environmental evaluation for project-Business analysis and quality of project. Code: STR ( II )
Subject: Field General Training
Credit Hours = 5 hr. Lecture
Exercises
Practical
0
0
60
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Business area.
Code: STR (III)
Subject: Factories & Practical Training
Credit Hours = 5 hr. Lecture
Exercises
Practical
0
0
60
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Business area
Modern University for Technology & Information – Faculty of Engineering
Page 139
Modules of Bio-Electronics Engineering Department Phase III
Modern University for Technology & Information – Faculty of Engineering
Page 140
Code: BIO 301
Subject: Bio Informatics
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
0
3
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Biology background – types of cells (animal / plant) – DNA-RNA-Proteins – genomes – proteome – sequence alignment – web base & biology database – proteins function prediction – proteins structure prediction – PPI prediction
Code: BIO 302
Subject: Micro-Waves Circuits and Equipment
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Microwave Resonators-Microwave Circuits Voltage and Current-Z-matrix and Y-matrixScattering Matrix-Power in Microwave Circuits-Passive Microwave Devices-Terminations Directional Couplers-Isolator and Circulators-Hybrid Junctions-Microwave Klystrons and Magnetrons-Microwave Semiconductors Circuits-Negative Resistance Diodes-Parametric Amplifiers-Microwave Oscillators Code: BIO 303
Subject: Medical Laboratory Science & Methods
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
0
3
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Centrifuge – CO2 measurement – O2 measurement – HPLC – PH meter – blood cell counter – gas analysis – immune system analysis Code: BIO 304
Subject: Power Electronics
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
0
3
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Semi conductors devices types and structures- Switching performance of power diodes transistors & thyristor- Protection of power semiconductor devices of over- Temperature Over voltage and over current- AC to DC conversion circuits- Performance of controlled thyristor rectifiers- Effect of sourer reactance and load reactance on the rectifier circuits.- DC to AC convectorsPerformance analysis of single-phase and three-phase converter circuits Modern University for Technology & Information – Faculty of Engineering
Page 141
Code: BIO 305
Subject: CAD of Signals & Systems
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Standard electronic components and systems in common use at medical and communication fieldsComputer aided system and circuits design-CAD of PCB- Most important CAD software packages. Code: BIO 306
Subject: Modeling of Electrical Machines
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Bark transformation-Synchronous generator model-Simulation of transmission lines-Simulation of active and reactive power-Signal modelling-Armature modelling-Voltage regulators modellingControllers modelling. Code: BIO 307
Subject: Data Base Management
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to Database-E-R Model concept-E-R Model Design-Normalization forms-SQL (structure query language) -Data base recovery. Code: BIO 308
Subject: clinical Engineering
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to clinical Engineering – ethical issue related to clinical research – medical devices regulations & standard – hospital risk management – types of hospital hazards - introduction to molecular biology – biotechnology – genomics – proteomics – genetic engineering – bioreactor system function & design
Modern University for Technology & Information – Faculty of Engineering
Page 142
Code: BIO 309
Subject: Bio-Mechanics Systems
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Design of artificial Joints and artificial limbs - Design of the microscope lenses and it's maintenance- Optiber scopes -Surgical equipment -drilling and grinding units -thermal sterilization units ( steam – autoclave ) -Waste burners - Mechanical components for lifting and moving of clinical equipment Code: BIO 310
Subject: Medical Gases System Design
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Types of medical gases-Aggregates of gas containers flow and pressure control-Gas distribution systems-Standard colours of gas pipes, safety and control valves-The specifications which has to be applied for design and implementation of medical gas system-Testing of the gas containers, pipes and valves-Measurements of gas flow, gas pressure and gas leak at the input and output of the system.- Analysis of medical gases chemical composition. Code: BIO 311
Subject: Bio Materials
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Material science-Properties of metals and alloys row metallic materials-Plastics-Ceramics composite materials-Porous structures-Mechanical tests-Friction-Wear and tear-Chemical wearBiological materials properties-Bio-ompatibility of materials-Surface properties fatigue propertiesImplantation materials.
Modern University for Technology & Information – Faculty of Engineering
Page 143
Code: BIO 312
Subject: Automatic Control
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
10%
10%
Practical Exam 10% 15%
Quizzes
Content : Introduction, basic definitions and terminology - Mathematical topics - Transfer functions, definition and case studies - Block diagrams; conventions, block diagram algebra and reduction of block diagrams. - Signal flow graphs; definition, conventions and Mason’s formula - Time domain analysis - Transient response of proportional, integrating and first order elements - Transient response of second order elements. Effect of location of roots of characteristic equation on the transient response - System identification based of the transient response - Instruments, sensors and controllers - Level control - Flow control - Speed control Temperature control - Robotic arm control - Frequency response - Frequency response; Polar plot and Bode plots - System identification based of the transient and frequency responses Accuracy of feedback systems; steady state error - Stability of feedback systems; Routh Herwitz and Nyquest stability criteria - Root locus analysis - Compensation of control systems - Design and tuning of P, PI and PID controllers. Code: BIO 313
Subject: Electronic Vision
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Image representation-Methods of image processing-Image enhancement-Data compressionReconstruction from projection-Features extraction-Texture analysis-Contour extraction-Image analysis-Pattern recognition-Computer vision-Letter recognition applications to the medical equipment. Code: BIO 314
Subject: Medical Instrumentation
Credit Hours = 3 hr. Lecture
Exercises
Lecture
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Anaesthesia machine – lithotripter – haemodialysis machines – medical laser – cone beam CT – Eastography
Modern University for Technology & Information – Faculty of Engineering
Page 144
Code: BIO 315
Subject: Nuclear & Radio Equipments
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Magnetic resonance imaging – Gamma Camera – PET – Radiotherapy equipment – linear accelerator – cobalt 60
Code: BIO 316
Subject: Sterilization Techniques
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Pollution control in hospitals-Disposable and multi-use equipment-Sterilization using chemical, team & autoclave equipment-Monitoring and control of sterilization cycles-Central Sterilization Control of hazardous substances at hospitals - hospital waste management – disinfection & sterlization Code: BIO 317
Subject: Physiotherapy Equipment
Credit Hours = 3 hr. Lecture
Exercises
Practical
1
2
3
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Physical therapy-Thread mills-Stretching – paraffin bath – hydro controller –TENS-traction – ultrasound –microwave –IR – Laser – unit interferential stimulation Code: BIO 318
Subject: TQM in health care
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment 15%
Attendance 10%
Quizzes 15%
Practical Exam 0%
Content : Structure of health car provider.-Types of hospitals and medical units- Special care units emergency-Geographical layout -Financing of health care units (governmental-private-third party)Doctors and nurses training-Administrative staff relations with drug suppliers-Equipment control.
Modern University for Technology & Information – Faculty of Engineering
Page 145
Code: BIO 319
Subject: Micro -Processor Control
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Numbering and coding systems-Architecture of 8 bit and bit microprocessor-Intel microprocessors form 8086 to Pentium-Inside the 8086/8088 microprocessor-Segment registers and addresses80x86 addressing modes-Programming the 80x86 Directives-The 80x86 Instructions-Methods of address decoding-Programmed input/output-Applications in the field of medical equipment. Code: BIO 320
Subject: Micro - Controllers
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Architecture of input and output subsystem-Standard interfaces-Protocols used in communicating between-peripherals and main unit- Input devices-Output devices (impact, non-impact)-Serial and parallel interfaces- Displays-Magnetic recording. Code: BIO 321
Subject: Inventory Control
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Inventory analysis-Inventory costs-Storage procedures with application to medical inventoryPerformance of inventory control system-Computer application of inventory control-Case studiesHandling equipment-Design of lifting equipment-Design of transport and storage equipment. Code: BIO 322
Subject: Fault Diagnoses
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction-Mechanical vibration procedures-Fault diagnosis in mechanical system-Acoustic fault diagnostic Procedures-Electrical & Electronic measurements for fault diagnosis of medical equipment.
Modern University for Technology & Information – Faculty of Engineering
Page 146
Code: BIO 323
Subject: Refrigeration & Air Condition
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction-Mechanical pressure of vapour-Cooling system components-Cooling media-Air cooling-Water vapour cooling-Air conditioning systems-Air conditioning power loads-Power saving-Applications at the medical field. Code: BIO 324
Subject: Robot Technology & Medical Care
Credit Hours = 3 hr. Lecture
Exercises
Lecture
2
2
2
Assessment Exerci ses 2
Lectu re 2
Exercises
Lecture
2
2
Exercis es 2
Lecture 2
Content : Definition of robotic arms-robotic arm kinematics-Criteria for robotic arm selection-Differential equations model for the robotic arms-Control languages of robotic arms-Power drivers-Positive shift pumps Valves and processors-Hydraulic system design-Construction of Hydraulic and electopneumatic circuits for the robotic arms-Application of robotic arms for surgical operations and medical examination. Code: BIO 325
Subject: Real Time Operation
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : General Description of Real – Time Operating System (RTOS) - Detailed Description of individual components of RTOS- S/W Drivers of external world sensors- Stimulus handlingRequirements of system components and individual Programs- S/W module design- Programming language- Software, hardware and performance of RT system- Communication & Interface s/w modules.
Modern University for Technology & Information – Faculty of Engineering
Page 147
Code: BIO 326
Subject: Medical Space Planning
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Healthcare facility design brief & conceptual design – medical equipment planning – room data requirements – equipment layout & technical services – physiological effect of colour – codes , standard , system safety & industry data
Code: BIO 327
Subject: Parametric Estimation and Systems Identification
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Review of stochastic processes. Model classification, The identification problem, application fields-Classical identification methods, impulse response, transfer function-On-line identification using; recursive least squares; minimum variance algorithm; stochastic approximation methods and maximum likelihood method-Simultaneous state and parameter estimation using extended Kalman filter, two stage identification method-Non-linear identification Quasi-linearization, Invariant embedding, Numerical identification methods. Code: BIO 328
Subject: Artificial Intelligence & Expert systems
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Artificial intelligent Concepts- Fundamentals of neural network- Learning algorithms used in neural network training, Different practical applications using neural network (logic gates)Solving problems using searching techniques- Non-heuristic techniques, Depth first, breadth first search, uniform cost search- Non-heuristic techniques, depth limited search, iterative deepening depth first search, bi-directional search, comparing searching techniques- Heuristic techniques, Greedy best first search, memory bounded heuristic search- Heuristic techniques, recursive best first search, learning to search better, Heuristic functions- Expert system architecture- Expert system, non-production system architecture- Semantic network basics and components- Semantic network and optimal search- Machine learning, frame work for symbol based learning, version space search,- Elimination algorithm, decision tree (induction algorithm).
Modern University for Technology & Information – Faculty of Engineering
Page 148
Code: BIO 329
Subject: Maintenance Planning of Hospitals
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction-Maintenance objectives-Effect of maintenance planning on the quality and performance-The factors that affect the maintenance operations-Integrated maintenance systemMaintenance cost estimation.-Planning for maintenance operations-Estimation of needed Personnel and equipment for maintenance operations-Scheduling methods-Forms used for Planning and control of the maintenance process-Planning and management of spare partsComputer planning and control. Code: BIO 330
Subject: BS.c Project Premium
Credit Hours = 3 hr. Lecture
Exercises
Practical
0
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Project- Research: Similar projects either International or Local projects- Research: Data and location gathering. Code: BIO 331
Subject: B.Sc. Project
Credit Hours = 5 hr. Lecture
Exercises
Practical
1
3
8
Assessment
Defense
Research Phase
Design Phase
Production Phase
Assembly
40%
10%
10%
10%
10%
Final
Presentation & Supervisor opinion
20%
Content : Collection & technical data -Collection & theoretical background -Design and Technological procedures - Problem solving -Realization & design -Testing and inspection -Design & experiment - Writing technical report -Follow up & technical work -Assembly & components -Presenting the product data -Evaluation & product efficiency
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Code: BIO 332
Subject: Management & Health Care
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment 15%
Attendance 10%
Quizzes 15%
Practical Exam 0%
Content : HIS – RIS –Hospital Management systems – DICOM – monitoring alarms –HL7-Protocolos
Code: BIO 333
Subject: Industrial Psychology
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment 15%
Attendance 10%
Quizzes 15%
Practical Exam 0%
Content : Industrial Design-Design concepts-Ergonomics-Application of ergonomics-Instruments-ControlsWork place-Aesthetic and ergonomics consideration-Working conditions and EnvironmentHeating and Ventilation-Local Ventilation-Industrial Ventilation-Air condition systems-CheckOzone-depletion and Global Warning -Noise – Expo sure to noise-Noise control-techniqueVibration-Lighting-Level of luminance-Factors-affecting the quality of lighting-Human effectiveness. Code: BIO 334
Subject: Feasibility Studies
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction-Market Study & Forecasting-Technical Study & Technology Selection-Economical Study-Social Study-Financial Studies-Environmental Studies-Case Study.
Code: STR ( IV )
Subject: Field Training
Credit Hours = 5 hr. Lecture
Exercises
Practical
0
0
60
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Business area.
Modern University for Technology & Information – Faculty of Engineering
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Modules in the of Control Engineering Department Phase II
Modern University for Technology & Information – Faculty of Engineering
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Code: CONT 201
Subject: Mathematics (III)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content: Infinite series and expansion of functions. - Ordinary differential equations: first order Separable, homogeneous, Exact, and linear Equations. nth order D.E with constant coefficients. (homogeneous and non homogeneous) - Functions of several variables: Partial differentiation, maximum and minimum values, Lagrange’s multipliers and conditional extrema, envelopes Vectors analysis: gradient of scalar fields, divergence and curl of vector fields, Green's - Gauss's Stoke's theorems-Multiple integrals: double integral, triple integral, line integral and surface integral-Functions of complex variable: analytic functions, Cauchy theorem, bilinear transformations, conformal mapping complex differentiation, Complex integrals, Cauchy integral formula, Taylor's and Laurent's series, singular points poles, residue, complex integrals Contour integration. Code: CONT 202
Subject: Mathematics (IV)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content: La-place transformations to elementary functions, and inverse La-place of functions, La-place transformations of derivatives and integrals, Solving D.E. using La-place transform.- Fourier series, harmonic functions, Fourier integrals.- Series solution of ordinary differential equations Partial differential equations: one dimensional wave equation, separation of variables method, D’Alembert method, one dimensional heat equation - Special functions: gamma function, beta function, Legender’s polynomials, Hankel's and Bessel’s functions. Integral transformations (Fourier, Laplace, Bessel, etc.) Code: CONT 203
Subject: Mathematics (V)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content: Numerical analysis: Finite differences, Newton’s polynomials, numerical integration, and numerical differentiation. Least squares method. - Curve Fitting and approximation of functionsNumerical solution of differential equation. - Solution of partial differential equations using finite difference and finite elements methods. Probability and statistics: Random Variables- Density Function-Gauss Distribution-Poison Distribution-Analysis of Matrices.
Modern University for Technology & Information – Faculty of Engineering
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Code: CONT 204
Subject: Engineering Mechanics
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Area moment of Inertia, Mass moment of Inertia - Statics: three dimensional statics using vector methods - Kinematics: vector equations for an observer on non-rotating axes - Two dimensional problems (rolling contact of curved surfaces) - Rolling motion with slipping and sliding elements in simple mechanics - Two dimensional rigid body Dynamics - Energy, momentum and conservation laws - Balancing of rotating and reciprocating masses - Vibration theory: derivation of mathematical model from practical case - Single degree of freedom systems - Free and forced vibrations, damping - Mechanical power transmission: transmission of rotational motion,Linkeages, belt drivers. - Velocity condition and involutes tooth shape, Efficiency and effective inertia. Code: CONT 205
Subject: Engineering Design (I)
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Continued use of limits and fits - Introduction to and use of geometrical tolerances and surface finish specifications - Use of functional design and manufacturing datums. -Machine features including cams. - Machine and screw threads. - Typical machine element - Systematic design for form and function, welding and weld symbols. - Brazing, soldering, use of fasteners. - Casting and forging. - Manufacturing details including casting drawings and welded sub-assemblies - Design for machining and assembly.
Code: CONT 206
Subject: Engineering Design (II)
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to design process with emphasis on iterative nature. - Problem identification and specification, conceptual design. - Assessment of alternative ideas and analysis of chosen idea with due consideration of imposed constraints, e.g. performance, cost and manufacture. - Design report presentation. - Further detail design including springs, bearings and seal selection and keyway design. - Power transmission elements such as electric motors, gears, chain, belts etc. - Cost and value analysis and engineering for simple design products Modern University for Technology & Information – Faculty of Engineering
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Code: CONT 207
Subject: Strength of Materials
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content: Introduction to static - Direct stress strain: principles of stress and strain. - Elastic modulus, factors of safety.- Non-uniform bars, compound bars. - Thermal stresses, strain energy and resilienceShock loading, stresses in rotating arms. - Types of installations and strength - Focal points and reactions. - Beams under concentrated or distributed loads. - Vertical power and shear force of the deformed. - Stresses and theories collapse of the installations. Code: CONT 208
Subject: Production Engineering (III)
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
2
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction, source of wealth, the role of manufacturing, engineering materials, basic process Solidification: (i) Expendable mould processes: sand casting, shell moulding, investment casting. (ii) Permanent mould processes: gravity and pressure die casting, injection moulding. - Bulk deformation: steady and non-steady state processes, hold and cold working, forging, rolling and extrusion. - Material removal: machining methods, metal cutting, development of cutting tools, forming and generating, single-point, multi-point and random-point machining, sheet-metal working. - Specialised machining methods: electrical, electrochemical, chemical, thermal-Surface texture: nature of surface, functional requirements, economic constraints, methods of measurements. Joining processes: permanent and non- permanent, mechanical joining methods, welding, soldering and brazing.
Modern University for Technology & Information – Faculty of Engineering
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Code: CONT 209
Subject: Electrical Circuits
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
2
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction to circuit parameters, linear and nonlinear, lumped and distributed bilateral and unilateral, voltage current relation in basic circuit elements: resistance, inductance and capacitance. Part I Analysis of Electric Circuits with dc Excitation-Kirchhoff’s law-voltage and current dividers-circuit transformations: delta star and vice versa- voltage to current source transformation and vice versa-Mesh or loop method in circuit analysis-nodal method. Network theorems: compensation-reciprocity-proportionate-superposition-thevin's equivalent- Norton equivalentmaximum power transfer-millman's theorem - Part II Analysis of electric circuits with AC excitation Properties of the sinusoid- the average and RMS values-properties of the j operatormanipulation of complex numbers- the complex impedance- the phase diagram- the concept of complex power-the power factor and power factor correction-solution of ac circuits. The mutual coupling – the dot notation- the ideal transformer solution of circuit with inductive mutual coupling Resonance in electrical circuits: the concept of resonance series and parallel resonancequality factor, half power points, sidebands, bandwidth, detuning-The three-phase ac circuits: star and delta configuration solution of three phase with symmetrical load- measurement of electric power-three and two wattmeter method. Part III Analysis of electrical circuits with non sinusoidal excitation-Circuits fed from a periodic non sinusoid voltage source:Fourier analysis of some regular periodic functions (square triangular, sowtooth, half wave rectifier, full wave rectifier, etc…)-The average and RMS values- the circuit power factor- power consumed Transients in electric circuits: circuits excited from a dc source; the series R-L circuits, the series R-C circuits (make and break), parallel R-L and parallel R-C circuits. Circuits excited from an ac source:Fourier analysis of some regular periodic functions (square triangular, saw tooth, half wave rectifier, full wave rectifier, etc…)The average and RMS values- the circuit power factor- power consumed-Transients in electric circuits: circuits excited from a dc source; the series R-L circuits, the series R-C circuits (make and break), parallel R-L and parallel R-C circuits.The two port network - The basic forms of the two port network. (Z-parameter, Y-parameters, ABCD, and CDBA, G, H), the interconnection of two or more Two port network- the feedback using two port network- filter networks.Part IV Analysis of electric circuits with non linear elements-The semigraphical solution of simple series/parallel non-linear elements- the series expansion method (Taylor's and MC Laurin's series) used in solving non linear networks. Application to magnetic circuits, transistor circuits, thermistor varistors circuits etc…
Modern University for Technology & Information – Faculty of Engineering
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Subject: Solid State Electronic Circuits
Code: CONT 210
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
2
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Crystals, Bonding, Basic elements of material science, electronic conduction in metals, electron in a periodic potential, energy bands and energy gaps in solids, Semiconductors, the Fermi level, electrons and holes, Intrinsic and extrinsic semiconductors, n-type and p-type, Diffusion and Drift Current, Excess carriers in semiconductors, Optical generation and recombination, the continuity equation, non homogenous doping, Pn-junction: I-V characteristics, Reverse saturation current depletion layer capacitance, Diffusion capacitance. Diode applications half- and full-wave rectifier, Zener diodes, Schottky barrier diodes, Light emitting diodes (LED) Code: CONT 211
Subject: Instrumentations
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
2
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Basic Principles of Measurements-Measurements in design- classification of methods of Measurements-fundamental methods of Measurements-Measurement systems- correction for interfering inputs- functions of the instrument- time element in Measurement-loading effect and loading errors- standards of Measurements-Errors in Measurements- Accuracy,precision,and resolution- Sensitivity and Significant figure -Error types-Statistical Analysis- Operations in Measurements-Signal Conditioning-Operational Amplifiers-Whetstone Bridge-Filters-Electrical Measuring Instruments-Classifications-Basic Operation of Electrical Measuring Instruments Direct Electrical Measuring Instruments-Electrical Indicating and recording Instruments Oscillographs and Oscilloscopes-Counters-Electronic Measuring Instruments – sensing elementstemperature measurement – pressure measurement – torque& force measurement – level & flow measurement – velocity / displacement / acceleration measurement – vibration measurement – strain measurement – application in process control - project Code: CONT 212
Subject: Computer Applications
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
0
2
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to MATLAB. - Matrix operations, Array operations Vectors and matrix operations. Graphing. - Data analysis - Control Flow. - M – Files. - Advanced programming in MATLAB Introduction to simulink - Computer Application using MATLAB Mathematical Models of systems. Modern University for Technology & Information – Faculty of Engineering
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Code: CONT 213
Subject: Thermodynamics
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
2
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Basic definition and system approach, process and cycles, zeroth law of thermodynamics and temperature measurement, microscopic and macroscopic viewpoints-The first law of thermodynamics for closed systems, work and heat transfers-Determination of work transfer for special cases, compression of heat and work transfer-Energy conservation in closed thermal systems, internal energy and application of The first law of thermodynamics-Pure substance, phases and phase change, critical point and triple point, the two property rule-Equations of state, perfect gas, specific heats of the fluids, properties of wet vapours, dryness fraction. - The first law of Thermodynamics for open systems (control volumes)-Energy transfers for open systems and environment, concept of flow energy, unsteady flow energy equation-Simplification to steady flow energy equation, practical examples of application of the steady flow energy equation-The second law of thermodynamics, heat engines and heat pumps-Thermal efficiency, the reversible process, the Carnot cycle-Thermodynamic temperature, inequality of Clausius, entropy-a macroscopic property. - Calculation of entropy changes for gas and vapours, a physical interpretation entropy. Code: CONT 214
Subject: Fluid Mechanics
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
3
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction to fluid mechanics and fluid properties-Hydrostatics including forces on immersed bodies and manometry-Fluid Statics and kinematics-Dimensional analysis-Fluid-flow description and kinematics-Continuity equations, moment equations and energy equations-Integral equations of arbitrary size-Mass reservation equation-Equivalent quantity of linear survival movementEquivalent quantity of circular movement-Energy equation-Bernoulli equation-Applications of fluid motion-Flow around bodies, introduction to the concept of boundary layer flows, and the definition of drag coefficient. Code: CONT 215
Subject: Micro - Computing Engineering
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
0
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Revision to digital electronics – Introduction to Electrical drives – Introduction to Power electronics – Analogue to Digital system Interface – Microcontrollers including its types / Architecture / Languages / Programming – Applications - Projects
Modern University for Technology & Information – Faculty of Engineering
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Code: CONT 216
Subject: Numerical Analysis
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Iterative methods for solving linear systems of algebraic equation: Jacobi method, Gauss-Seidel method and Successive over relaxation method. Solution of Equations in one variable: The Bisection method. Fixed-point iteration. The error in the fixed point iteration method. The Newton-Raphson method. Numerical solution of Ordinary differential equations: Systems of first order ODEs. Multistep methods for ODEs: AdamsBashorth methods, Adams Moulton methods. Predictor-corrector methods. Numerical solution of Partial differential equations: Finite difference approximations: Explicit methods and Implicit methods (Crank Nicolson-LaxWendroff-Leap frog).The course requires a moderate amount of programming. C or C++ programming languages are preferred. However, students may also use software programs including Matlab, Mathematica.
Code: CONT 217
Subject: Computer Programming (I)
Credit Hours = 4 hr. Lecture 2
Exercises 2
Lecture 3
Assessment Exercises Lecture 40% 15%
Exercises 10%
Lecture 10%
Exercises 10%
Lecture 15%
Content : Introduction to computer commands - The timing and operation - input and output – Interruption Computer simple design, - The basics of the language compilation and characteristics Characteristics of the compilation and Macros - The central organizational operator :the carrier, and the mathematical and logical operations stack, commands forms, the types of titles - The organization of microprocessors ,The organization controlling the mini programs, controlling memory - Sequentially programs miniature, miniature forms of commands - Design of arithmetic microprocessor and ways of dealing with signed number - The organization of inputs and outputs memory hierarchical - Relational memory, virtual memory - Dynamic memory, memory management circuit
Modern University for Technology & Information – Faculty of Engineering
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Code: CONT 218
Subject: Computer Programming (II)
Credit Hours = 4 hr. Lecture 2
Exercises 2
Lecture 3
Assessment Exercises Lecture 40% 15%
Exercises 10%
Lecture 10%
Exercises 10%
Lecture 15%
Content : Use program design and documentation tools in C++ development environment- Use arrays variables in C++ programming language- Write modular programs in C++- Concepts of structured programming. - Program structure in C++. - Data types and declaration in C++- Input / Output in C++ and I/O stream class-I/O manipulation- Operators and precedence in C++-Decision (selection) constructs in C++- Loops in C++ - Arrays in C++- Functions in C++ -Calling functions (by value, by reference). Code: CONT 219
Subject: Properties and Testing of Material
Credit Hours = 4 hr. Lecture 2
Exercises 2
Lecture 3
Assessment Exercises Lecture 40% 15%
Exercises 10%
Lecture 10%
Exercises 10%
Lecture 15%
Content : Standard Experiments-Specifications and Engineering Materials-Mechanical Properties and Tests of Metals-Steel Reinforcement (types and tests)-Corrosion of Metals and ways of protectionPolymers and Polymer Materials Strengthened with Fibres-Advanced metallic materials:AL-LI alloy developments and replacement trials in helicopter production, principles and practice of fiber composite materials, rapid solidification techniques, porous metals-Advanced ceramic materials: structures (crystal/glasses),oxidation, carbides, nitrides, manufacture and microstructure ,mechanical properties , hardness , wear , plasticity , typical application-Advanced polymeric materials: advanced thermoplastics, structure, mechanical properties, control of degree of crystallinity in processing, polymer composites both thermoplastic and thermosetting, selfreinforcing polymers.
Code: CONT 220
Subject:
Civil Engineering
Credit Hours = 4 hr. Lecture 2
Exercises 2
Lecture 3
Assessment Exercises Lecture 40% 15%
Exercises 10%
Lecture 10%
Exercises 10%
Lecture 15%
Content : Introduction to Civil Engineering - Types of Structures - Surveying - Properties of Materials - Soil Mechanics and Foundations - Concrete Skeletons - Steel Skeletons - Civil works and Engineering Measurements - Electrical Joints for Residential Structures and Non-residential Structures Quality Control.
Modern University for Technology & Information – Faculty of Engineering
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Code: CONT 221
Subject:
Digital & Electronic Circuits
Credit Hours = 4 hr. Lecture 2
Exercises 2
Assessment
Lecture 3
Exercises Lecture 40% 15%
Exercises 10%
Lecture 10%
Exercises 10%
Lecture 15%
Content : Binary systems: Binary numbers- Number base conversions- Octal & Hexadecimal numbersComplements- Signed binary numbers- Binary Codes. Boolean Algebra & Logic Gates: Basic Definitions- Boolean Algebra- Basic Theorems & properties of Boolean Algebra- Boolean Functions- Canonical & Standard Forms- Digital Logic Gates.Gate Level Minimization: The Map Method- Four variable Map- Five variable Map- Product of sum simplification- Don’t Care Conditions- NAND & NOR ImplementationTwo level Implementation- Exclusive OR Function. Combinational Logic: Combinational Circuits- analysis Procedure- Design Procedure- Binary Adder & Subtractor- Binary Multiplier- Decoders- Encoders- Multiplexers. Synchronous Sequential Logic: Sequential Circuits- Latches- Flip Flops- Analysis of Clocked Sequential Circuits- State Reduction- Design Procedure. Registers & Counters: Registers- Shift Registers- Ripple Counters- Synchronous Counters. Memory & programmable Logic: Randam Access Memory- Memory Decoding- Read only Memory- Programmable Logic Memory- Programmable array Logic. Code: CONT 224
Subject: Engineering Application
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Projects: Power Supply- Failure AlarmDark Detecting LED-Different Clipping Circuits -Design of Differentiator using 741- Design of Integrator using 741- Voltage Monitor- Replacing 741 with 339- Baragraph Voltage indicator-NAND gate circuit- Timer Circuit- Comparator Oscillator Circuit- Different Types of Oscillating circuits- Binary Weighted Resistor & R-2R Ladder Digital to Analog Circuits- 3-bit D/A circuit - 0-9 second (minute) Timer-Speaker Amplifier
Modern University for Technology & Information – Faculty of Engineering
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Code: CONT 224
Subject: Field Theory
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Coordinates Systems and Vector Analysis: Cartesian Coordinates, Cylindrical Coordinates, Spherical Coordinates- Electrostatic Field in Vacuum: Coulomb’s Law and Electric Field Intensity, Electric Flux Density & Gauss Law, Electrostatic Potential, The Electric Dipole, Poisson’s & La-place’s Equations- Electrostatic Field in Dielectric Media: Polarization, Boundary Condition, Capacitance, Electrostatic Energy.- Methods for the solution of Electrostatic Problems: Solution of La-place Equation, Solution of Poisson’s Equation- Ohm’s Law and Joule’s Law, Boundary condition of current density- Relaxation time, The steady Magnetic Field- Ampere’s law, Biot-Savart law, and magnetic vector potential, Boundary conditions of steady magnetic field- Inductance and Magnetic circuits. Magnetic Force.- Time Varying Field & Maxwell’s equations.- Faraday’s law and Displacement current.- Maxwell’s equations and Plane wave propagation in different media.
Code: CONT 225
Subject: Microelectronics (I)
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
2
3
Assessment Final Exam 40%
Mid Term 15 %
Assignment
Attendance
Quizzes
10 %
10%
10%
Practical Exam 15 %
Content : Bipolar junction transistor (BJT): Eber-moll model, Static and dynamics characteristics, Transistor small signal models: Z-, y- and h- parameters. Analysis of audio frequency (AF) amplifiers: RC-coupled, Frequency response. Field effect transistors. (linear and nonlinear and pinch off regions), JFETs model and biasing. Insulated gate FETs: Types, Regions of operation, MOSFETs model and biasing. FETs applications: MOSFET as a resistance, JFET as a constant current source, Metal semiconductor contacts, MOS capacitors, Power devices, Device simulators. Elementary transistor stages, Common source, Common gate, Source follower
Modern University for Technology & Information – Faculty of Engineering
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Code: CONT 226
Subject: Control Engineering (I)
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
2
3
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction to Control Systems- Mathematical of Background- Mathematical modelling of Dynamic Systems (transfer function-block diagrams-signal flow Graph-state space representationconventions and Mason’s formula)-Transient Response Analysis: Transient response of proportional, integrating and first order elements, Transient response of second order elements.Basic Control Action of Control Systems and Error Analysis.- Accuracy of feedback systems; steady state error-Stability of feedback systems; Routh-Herwitz and Nyquest stability criteria.Compensation of control systems
Code: CONT 227
Subject: Semiconductor Physics
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Semiconductor Materials, Properties- Crystals and common Semiconductor crystal structures, crystal binding, miller indices.- Energy band and energy levels of semiconductors, effect of crystal size and fine structure on energy bands.- Electrons and holes in semiconductors. Fermi Dirac distribution Function and the density of states.- Carrier Concentration: Intrinsic Semiconductors and doped semiconductors- Semiconductor conductivity model: intrinsic & extrinsic semiconductor, n-type and p-type semiconductor.- Electron and hole concentration at thermal equilibrium, math action law in semiconductor.- Effects of magnetic fields on charge carrier concentration, band-gap narrowing at high-doping concentrations. Energy-gap narrowing at high temperature.- Carrier Transport: Carrier drift and carrier diffusion, Carrier recombination and generation, carrier lifetime.- Continuity Equation. Code: CONT 228
Subject: Technical Reports Writing
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : The types of technical reports-Short reports the components-Long reports components-Writing systems and audit reports-Methods of technical presentation of reports.-Collecting the informationUsing graphs and statistics-Selecting and structuring the material-Readability and editing reportsPresenting the findings-Concluding and recommending-Assessment of reports
Modern University for Technology & Information – Faculty of Engineering
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Code: CONT 229
Subject: Industrial Psychology
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Industrial Design-Design concepts-Ergonomics-Application of ergonomics-Instruments-ControlsWork place-Aesthetic and ergonomics consideration-Working conditions and EnvironmentHeating and Ventilation-Local Ventilation-Industrial Ventilation-Air condition systems-CheckOzone-depletion and Global Warning -Noise – Expo sure to noise-Noise control-techniqueVibration-Lighting-Level of luminance-Factors-affecting the quality of lighting-Human effectiveness. Code: CONT 230
Subject: Ethics Studies
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Evolution of the human species and Human gender.-The mixing of races , Civilization improvement-The practical development of each sex -Relation between mingling of races and evolution-The evolution of multicultural societies-Theories and research methods for studying the relationship between minorities.-Gender combination and its effect on proceeding in building construction process. Code: STR ( II )
Subject: Field General Training
Credit Hours = 5 hr. Lecture
Exercises
Practical
0
0
60
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Business area Code: STR (III)
Subject: Factories & Practical Training
Credit Hours = 5 hr. Lecture
Exercises
Practical
0
0
60
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Business area
Modern University for Technology & Information – Faculty of Engineering
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Modules of Control Engineering Department Phase III
Modern University for Technology & Information – Faculty of Engineering
Page 164
Code: CONT 301
Subject: Use of Micro-Computers
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Fundamentals of computer architecture and organization, Basic computer organization and design: Information format, Instruction formats. Computer In structions, Timing and control execution, Register transfer, Micro operations, Control functions, Memory organization, CPU structure and function, Processor organization, Register organization, ALU, Instruction execution cycles, Control memory, Microinstruction sequencing and execution. Bus organization: Bus timing Analysis, Memory devices and systems. I/O systems. Hardware implementation of data path and memory systems: Control signalling and interrupts, Programmed I/O, interrupt priority, Bidirectional bus interfaces, Programmable peripherals devices, Interface design issues.
Code: CONT 302
Subject: Control Engineering (II)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Steady State error analysis -Root locus technique -Frequency response analysis -Continuous and digital compensator design -Approximate digital controller -Controllability, -Observables and pole - Placement problem. Code: CONT 303
Subject: Micro-Electronics (II)
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
2
3
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Feedback amplifiers, stability, root locus analysis, poles and zeros, multivibrators, pulse circuits, switched circuits. AF power amplifiers: Class-A, push-pull operation (Class-A, Class-B). Operational amplifiers (OPAMPs): Differential Amplifier and Current mirror -Difference amplifier, OPAMP specifications and frequency characteristics. OPAMP applications: Inverting, non-inverting, Adder, Subtracter, Integrator, Differentiator. Oscillators: Concept of stability and oscillations, OPAMP oscillators (rectangular, sinusoidal, Wien bridge, phase shift, and tuned circuits). Analog-to-digital (A/D) and digital-to analog (D/A) converters.
Modern University for Technology & Information – Faculty of Engineering
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Code: CONT 304
Subject: Electric Machines & Power
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
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Quizzes
10%
10%
10%
Practical Exam 15%
Content : DC machines: classification, the overall ranking, the magnetic, coils, the electro-magnetic force, a member of the reaction production and turnover current- DC engines: excitation methods, the magnetic curve, the speed and moment and the start of the movement, properties, speed controlDC generators: on a separate sensationalism and self-generators in the DC generators, operating in parallel- The efficiency of dc machines: the losses, high efficiency conditions- Transformers: basic types, installation, the principle of the conversion process, the equations of electromotive force, the motive force. Code: CONT 305
Subject: Power Electronics (I)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Semiconductors: types and installation-Performance of rectifier switching -Power transistor and thyristors-Properties of rectifiers and thyristors-Protect the semiconductor circuits against the high temperature -Converting ac voltage into dc voltage. Code: CONT 306
Subject: Electronics Circuit Design
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Basic analog building blocks (current mirrors, common- source, common- drain, common- gate, cascodedifferential pair), RF transceivers, Noise figure, harmonic distortion, Low Noise Amplifiers, Mixers, LC Oscillators, phase noise, RF frequency synthesis, RF Power Amplifiers (class A, class B, class C, class AB), Integration artifacts. CMOS Inverter: Noise margin, Propagation delay, Power dissipation, CMOS combinational circuits: Static design, Pass transistors and transmission gates, Dynamic design, CMOS sequential circuits: Latches, Flip- flops, Counters, Monostable Ring oscillator, Random Access Memory RAM, Read Only Memory ROM, Emitter Coupled Logic ECL, Bi CMOS circuits.
Modern University for Technology & Information – Faculty of Engineering
Page 166
Code: CONT 307
Subject: Micro-Processors Based Systems
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Numbering and coding systems-Architecture of 8 bit and 16 bit microprocessor -Intel microprocessors form 8086 to Pentium-Inside the 8086/8088 microprocessor-Segment registers and addresses-80x86 addressing modes-Programming the 80x86 Directives-The 80x86 Instructions-Methods of address decodingProgrammed input/output.
Code: CONT 308
Subject: Advanced Control Engineering
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction-Mathematical description of system-Analogue computers and system simulation.Transient response of systems-State space representation and analysis.-Frequency response of systems-Feed back system accuracy and stability-The root locus method-Design of closed loop systems-Statistical method for system identification. Code: CONT 309
Subject: Electronic Instrument & Sensors
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
2
3
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Linear Power Amplifier- Class A Amplification, Class B Amplification, , Sine Wave OscillatorsThe Criteria of Oscillation- Negative Resistance Oscillators- Feedback Oscillators &oscillator design techniques- Colpitts Oscillator Analysis and Design- Other Oscillator Circuits, Maximum Efficiency Oscillator- Crystal Controlled Oscillator- Small-Signal High-Frequency AmplifierSensor types & applications – error in measurement – electronic instruments types & application project
Modern University for Technology & Information – Faculty of Engineering
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Code: CONT 310
Subject: Digital Signal Processing
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
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Quizzes
15%
10%
15%
Practical Exam 0%
Content : Signal, System and Signal processing - Classification of Signals - The concept of Frequency in Continuous-Time and Discrete-Time Signals - Analogue-to-Digital and Digital-to-Analogue Conversion - Fourier series (FS) and Fourier Transform (FT) - Discrete Fourier Transform (DFT) and Its Inverse - Computational complexity of the DFT - Autocorrelation, Cross-Correlation, and Convolution - Z-transform and its inverse - Properties of the Z-transform - Some applications of Z-transform in DSP - FIR, IIF filter design - Pattern Recognition. Code: CONT 311
Subject: Digital Control
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction: Sampled-data control systems, sample and hold, sampling modelling, data reconstruction , Shannon theorem, aliasing.- digital system representation: Z-transform, difference equation, state transition matrix, system characteristics- Digital system characteristics: Controllability and observability, stability, Jury test- digital implementation of analogue controllers: Forward difference, backward difference, bilinear Tustin, Tustin with pre-warping.implementation: Impulse invariance, step invariance, matched poles and zeros, anti-aliasing filters.- Digital controller Design: Classical methods, digital PID's, digital lead-lags, dead-beat controller.- digital controller Design: State space methods, pole placement methods, controller implementations, tracking performance.- digital controller Design: Optimal state space controllers, LQR controllers- Digital Observers: State observers, pole placement methods, optimal observers, Kalman filters, current estimates observers- LQR/LQG controllers: State observer-state feedback configuration, disturbance rejection, tracking performance- Common nonlinear systems, state space representation, equilibrium point, common behaviors of nonlinear systems, and limit cycles- Phase plane Analysis: 2nd order nonlinear systems, phase portrait graphical representation, singular points. Stability Analysis: Different definition of stability for nonlinear systems, Lyapunov linearization method, Lyapunov direct method, globally asymptotically stability analysis.
Modern University for Technology & Information – Faculty of Engineering
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Code: CONT 312
Subject: Modeling of Industrial Systems
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
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Quizzes
15%
10%
15%
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Content : Continuous and Discrete system simulation - Development of simulation models - Random number generation - Model Validation, and analysis of model output - Impact of nonlinearity and transient behaviour - Dynamic system analysis -Application of simulation packages. Code: CONT 313
Subject: Robot Engineering & Control
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Robot modelling and control -Robot sensing system-interfacing-Programming languages with IE1131-End effectors-Robot programming and languages -Application of industrial robots in manufacturing-Economic considerations.
Code: CONT 314
Subject: Programmable Logic Controllers
Credit Hours = 3 hr. Lecture
Exercises
Lecture
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Build-up and operation of digital minicontrollers- Programming of digital minicontrollers (AND,OR,NOT,memory,timing,and counter functions)- Basic (hardware configuration)Programming languages with IE1131- Build-up and operation of a PLC- Programming with statement list, Ladder diagram, function chart.- Application for logic control- Application for sequence control- Software installation and tests- -Input and Output-Interfacing-ProgrammingApplications. Code: CONT 315
Subject: Fluid Power Control Systems
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduce Hydraulic Transmission-Positive displacement pumps, actuators, hydraulic oilsHydraulic control system design and construction-Hydro-pneumatic control system-Using Logic Programmable Control Units-Using Hydraulic systems design and Simulation Software. Modern University for Technology & Information – Faculty of Engineering
Page 169
Code: CONT 316
Subject: Systems Dynamics & vibration
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
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Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to system Dynamic System Classification, System Models - Multipart systems, Bond graph, Source – Load synthesis - Basic component Models (Mechanical, Electrical, hydraulic, Thermal), 1-Port, 2-Port, 3-Port junction elements, Causality for basic Multiport. - System Models, construction method for Various Domains (Electric, Mechanical, hydraulic) - State space Equations, Analysis of system Models. (First and second order systems) - Simulation with MATLAB - Vibration of single DOF Systems. - Applications. - Vibration Measurement Vibration of two and Multi- DOF systems - MATLAB Simulation Code: CONT 317
Subject: Power Electronics (II)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Keys static voltage and current reflectors- Circuits With the non-ideal source.- Ac voltage controlled circuits- Ways to control operation and performance analysis services to organizations of voltage regulators single and three-phase- Electrostatic transformers- Analysis of different types of continuous voltage regulators. Code: CONT 318
Subject: Advanced Electronic Systems
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
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Quizzes
15%
10%
15%
Practical Exam 0%
Content : Transistors and microwave amplifiers -Low-noise amplifier-Sinusoidal oscillators -Multi-Vibrator –Scanners-Detectors
Modern University for Technology & Information – Faculty of Engineering
Page 170
Code: CONT 319
Subject: Micro-Waves Principles
Credit Hours = 3 hr. Lecture
Exercises
Lecture
2
2
2
Assessment Exerci ses 2
Lectu re 2
Exercises
Lecture
2
2
Exercis es 2
Lecture 2
Content : Microwave Resonators-Microwave Circuits Voltage and Current-Power in Microwave CircuitsPassive Microwave Devices-Terminations -Directional Couplers-Isolator and Circulators-Hybrid Junctions-Microwave Klystrons and Magnetrons-Microwave Semiconductors Circuits-Negative Resistance Diodes-Parametric Amplifiers-Microwave Oscillators Code: CONT 320
Subject: Parameter Estimation & System Identification
Credit Hours = 3 hr. Lecture
Exercises
Lecture
2
2
2
Assessment Exerci ses 2
Lectu re 2
Exercises
Lecture
2
2
Exercis es 2
Lecture 2
Content : Factors appreciation-Assessment systems using fixed factors -A lower estimate of square-Bar Codes identification systems-using Least-Squares-Time domain specification-First order systemSecond order system-Steady state error constant-Generalized error series-Frequency domain specifications-Resonance for a second order system
Code: CONT 321
Subject: Control of Industrial Systems
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Power semiconductor devices modelling- Simulation methods- Traditional and modern controllers- Scalar and vector control of AC drives.- Higher power electronics thyristors, the silicon control switch, single phase control of DC- Phase control of TRIAC circuits- Thyristor protection.
Modern University for Technology & Information – Faculty of Engineering
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Code: CONT 322
Subject: Systems Design and Analysis
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
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Quizzes
15%
10%
15%
Practical Exam 0%
Content : Signal and their functional representation- System classification and representation- Convolution and impulse response.- Fourier series- Spectrum of temporal and special signals response and application of linear filter.
Code: CONT 323
Subject: BS.c Project Premium
Credit Hours = 3 hr. Lecture
Exercises
Practical
0
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
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Quizzes
15%
10%
15%
Practical Exam 0%
Content : Project- Research: Similar projects either International or Local projects- Research: Data and location gathering.
Code: CONT 324
Subject: B.SC. Project
Credit Hours = 5 hr.
Assessment
Lecture
Exercises
Practical
1
3
8
Defense
Research Phase
Design Phase
Production Phase
Assembly
40%
10%
10%
10%
10%
Final
Presentation & Supervisor opinion
20%
Content : Collection & technical data -Collection & theoretical background -Design and Technological procedures - Problem solving -Realization & design -Testing and inspection -Design & experiment - Writing technical report -Follow up & technical work -Assembly & components -Presenting the product data -Evaluation & product efficiency Code: CONT 325
Subject: Feasibility Studies
Credit Hours = 2 hr.
Assessment
Lecture
Exercises
Practical
2
0
0
Final Exam 40%
Mid Term 20%
Assignmen t 15%
Attendance
Quizzes
10%
15%
Practical Exam 0%
Content : Introduction-Market Study & Forecasting-Technical Study & Technology Selection-Economical Study-Social Study-Financial Studies-Environmental Studies-Case Study.
Modern University for Technology & Information – Faculty of Engineering
Page 172
Code: CONT 326
Subject: Accounting
Credit Hours = 2 hr.
Assessment
Lecture
Exercises
Practical
2
0
0
Final Exam 40%
Mid Term 20%
Assignment
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Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction -The Accounting cycle of data accumulation -Financial statement-Accounting for inventories-Accounting for specific assets & liabilities-Management & Accounting
Code: CONT 327
Subject: Engineering Economics
Credit Hours = 2 hr.
Assessment
Lecture
Exercises
Practical
2
0
0
Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Cash Flow-Compound Interest-Time Value of Money-Nominal and Effective InterestEquivalence-Engineering Problem Analysis:-Depreciation-Income Taxes
Code: STR ( IV )
Subject: Field Training
Credit Hours = 5 hr. Lecture
Exercises
Practical
0
0
60
Assessment Final Exam 40%
Mid Term 15%
Assignment
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Quizzes
10%
10%
10%
Practical Exam 15%
Content : Business area.
Modern University for Technology & Information – Faculty of Engineering
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Modules of Computer Engineering Department Phase II
Modern University for Technology & Information – Faculty of Engineering
Page 174
Code: COME 201
Subject: Mathematics (III)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
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Quizzes
15%
10%
15%
Practical Exam 0%
Content : Infinite series and expansion of functions-Ordinary differential equations: first order Separable, homogeneous, Exact, and linear Equations. nth order D.E with constant coefficients. (homogeneous and non homogeneous)- Functions of several variables: Partial differentiation, maximum and minimum values, Lagrange’s multipliers and conditional extrema, envelopes- Vectors analysis: gradient of scalar fields, divergence and curl of vector fields, Green's - Gauss's - Stoke's theorems Multiple integrals: double integral, triple integral, line integral and surface integral- Functions of complex variable: analytic functions, Cauchy theorem, bilinear transformations, conformal mapping complex differentiation, Complex integrals, Cauchy integral formula, Taylor's and Laurent's series, singular points poles, residue, complex integrals Contour integration.
Code: COME 202
Subject: Mathematics (IV)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : La-place transformations to elementary functions, and inverse La-place of functions, La-place transformations of derivatives and integrals, Solving D.E. using La-place transform. Fourier series, harmonic functions, Fourier integrals- Series solution of ordinary differential equations – Partial differential equations: one dimensional wave equation, separation of variables method, D’Alembert method, one dimensional heat equation- Special functions: gamma function, beta function, Legender’s polynomials, Hankel's and Bessel’s functions- Integral transformations (Fourier, Laplace, Bessel, etc.) Code: COME 203
Subject: Mathematics (V)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Numerical analysis: Finite differences, Newton’s polynomials, numerical integration, and numerical differentiation. Least squares method-Curve Fitting and approximation of functionsNumerical solution of differential equation-Solution of partial differential equations using finite difference and finite elements methods- Probability and statistics: Random Variables-Density Function-Gauss Distribution-Poison Distribution-Analysis of Matrices.
Modern University for Technology & Information – Faculty of Engineering
Page 175
Code: COME 204
Subject: Engineering Mechanics
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Area moment of Inertia, Mass moment of Inertia-Statics: three dimensional statics using vector methods-Kinematics: vector equations for an observer on non-rotating axes-Two dimensional problems (rolling contact of curved surfaces)-rolling motion with slipping and sliding elements in simple mechanics-Two dimensional rigid body Dynamics-energy, momentum and conservation laws-balancing of rotating and reciprocating masses-Vibration theory: derivation of mathematical model from practical case-single degree of freedom systems-free and forced vibrations, dampingMechanical power transmission: transmission of rotational motion, Linkages, belt drivers-Velocity condition and involutes tooth shape, Efficiency and effective inertia.
Code: COME 205
Subject: Digital Systems (I)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction-Review of numbers system-Decimal umber system-Binary umber system-Octal umber systems-Hexadecimal umber systems-Other umber system-Binary rithmetic: binary addition-binary subtraction-binary multiplication-binary division-9's complement-10's complement. Code: COME 206
Subject: Logic Circuits
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction :Aims realized through the topics of this subject.- Logic gate types (RTL, DTL, TTL, ECL)-State diagrams and state table representation-The Mealy and Moore models.- Synthesis procedure of completely specified sequential circuits-Building state diagram (table) - Using state reduction techniques (state equivalence) and specially the implication chart method-State assignment techniques.-Excitation functions derivation.- Controllable counters as an example for a Moore mode - Analysis of sequential logic circuits-Modular Design Approaches using Register Transfers and Data paths - Digital systems subdivision (Data path and control)-Register transfer operations. -Arithmetic micro operations-Logic micro operations. - Shift micro operations-Tristate bus based transfers.
Modern University for Technology & Information – Faculty of Engineering
Page 176
Code: COME 207
Subject: Computer Science (I)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction to computer commands-The timing and operation-input and output-InterruptionComputer simple design-The basics of the language compilation and characteristicsCharacteristics of the compilation and Macros-The central organizational operator : the carrier, and the mathematical and logical operations -stack, commands forms, the types of titles-The organization of microprocessors The organization controlling the mini programs, controlling memory-Sequentially programs miniature, miniature forms of commands-Design of arithmetic microprocessor and ways of dealing with signed number-The organization of inputs and outputs memory hierarchical-Relational memory, virtual memory-Dynamic memory, memory management circuit. Code: COME 208
Subject: Computer Science (II)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Initial concepts for the hardware of the PC- Use program design and documentation tools in C++ development environment Use arrays variables in C++ programming language-Write modular programs in C++-Concepts of structured programming-Program structure in C++Data types and declaration in C++-Input / Output in C++ and i/o stream class-I/O manipulation-Operators and precedence in C++-Decision (selection) constructs in C++-Loops in C++- Arrays in C++-Functions in C++-Calling functions (by value, by reference).
Modern University for Technology & Information – Faculty of Engineering
Page 177
Code: COME 209
Subject: Electrical Circuits
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction to circuit parameters, linear and nonlinear, lumped and distributed bilateral and unilateral, voltage current relation in basic circuit elements: resistance, inductance and capacitance. Part I Analysis of Electric Circuits with dc Excitation-Kirchhoff’s law-voltage and current dividers-circuit transformations: delta star and vice versa- voltage to current source transformation and vice versa-Mesh or loop method in circuit analysis-nodal method. Network theorems: compensation-reciprocity-proportionate-superposition-thevin's equivalent- Norton equivalentmaximum power transfer-millman's theorem - Part II Analysis of electric circuits with AC excitation Properties of the sinusoid- the average and RMS values-properties of the j operatormanipulation of complex numbers- the complex impedance- the phase diagram- the concept of complex power-the power factor and power factor correction-solution of ac circuits. The mutual coupling – the dot notation- the ideal transformer solution of circuit with inductive mutual coupling Resonance in electrical circuits: the concept of resonance series and parallel resonancequality factor, half power points, sidebands, bandwidth, detuning-The three-phase ac circuits: star and delta configuration solution of three phase with symmetrical load- measurement of electric power-three and two wattmeter method. Part III Analysis of electrical circuits with non sinusoidal excitation-Circuits fed from a periodic non sinusoid voltage source:Fourier analysis of some regular periodic functions (square triangular, sowtooth, half wave rectifier, full wave rectifier, etc…)-The average and RMS values- the circuit power factor- power consumed Transients in electric circuits: circuits excited from a dc source; the series R-L circuits, the series R-C circuits (make and break), parallel R-L and parallel R-C circuits. Circuits excited from an ac source:Fourier analysis of some regular periodic functions (square triangular, saw tooth, half wave rectifier, full wave rectifier, etc…)The average and RMS values- the circuit power factor- power consumed-Transients in electric circuits: circuits excited from a dc source; the series R-L circuits, the series R-C circuits (make and break), parallel R-L and parallel R-C circuits.The two port network - The basic forms of the two port network. (Z-parameter, Y-parameters, ABCD, and CDBA, G, H), the interconnection of two or more Two port network- the feedback using two port network- filter networks.Part IV Analysis of electric circuits with non linear elements-The semigraphical solution of simple series/parallel non-linear elements- the series expansion method (Taylor's and MC Laurin's series) used in solving non linear networks. Application to magnetic circuits, transistor circuits, thermistor varistors circuits etc…
Modern University for Technology & Information – Faculty of Engineering
Page 178
Subject: Solid State Electronic Circuits
Code: COME 210
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
2
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Crystals, Bonding, Basic elements of material science, electronic conduction in metals, electron in a periodic potential, energy bands and energy gaps in solids, Semiconductors, the Fermi level, electrons and holes, Intrinsic and extrinsic semiconductors, n-type and p-type, Diffusion and Drift Current, Excess carriers in semiconductors, Optical generation and recombination, the continuity equation, non homogenous doping, Pn-junction: I-V characteristics, Reverse saturation current depletion layer capacitance, Diffusion capacitance. Diode applications half- and full-wave rectifier, Zener diodes, Schottky barrier diodes, Light emitting diodes (LED)
Code: COME 211
Subject: Instrumentation (I)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Analogy Measuring Equipment-CRT , Deflection Amplifiers, Time base-Display systems& waveform display-Dual Trace Oscilloscopes, supplies, testing-Special types of oscilloscopesDigital Storage Oscilloscope-Measuring phase difference using oscilloscope-Measuring frequency using Figure-Analog Electronic Millie-ammeters- Analog Electronic Voltmeters & ohmmetersDigital Electronic Voltmeters-Digital Electronic Frequency meters, reciprocal count-Distortion meters, Frequency Analyzers- Spectrum Analyzer, Signal generators. Code: COME 212
Subject: Computer Architecture (I)
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
2
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : High performance for the expansion and including paths containing computer-memory systems with high velocities-destined processors-parallel processors and networking stocks-Reduced Instruction Set Computer RISC & CISC interrupt-Construction of The ALU-Integer Representation-Basic Operations-Memory reference instruction- Input-Output units-Control Memory and Address Sequencing-Micro program Example and Design of Control Unit-General register organization and Stack Organization-Addressing modes and Program control.
Modern University for Technology & Information – Faculty of Engineering
Page 179
Code: COME 213
Subject: Electronic Engineering
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Bipolar junction transistor Applications-The function of transistor and its static-Dynamic properties-Thyristor-Uni-polar elements-The basic properties-The principles of light emitting diode-Semiconductor laser-Detector light, the optical cells-The properties and applications of laser technology-Application of integrated circuits-Crystal growth and oxidation-The film deposition and proliferation-Printing circuit board.
Code: COME 214
Subject: Computer Architecture (II)
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
2
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Memory connection to CPU-Internal Organization of memory chip-Asynchronous data transferSynchronous data transfer-Multiplication Algorithm-Floating point arithmetic operationBasic Operations-Pipelining Basic Concepts-Arithmetic Pipeline-Instruction Pipeline-Vector Processing-Peripheral devices-Input output Interface-Asynchronous serial transfer. Code: COME 215
Subject: Digital Systems (II)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Number system conversion-Binary to decimal conversion-Decimal to binary conversion-Binary to octal conversion-Octal to binary conversion-Binary to hexadecimal conversion-Hexadecimal to binary conversion-Decimal to octal conversion-Octal to decimal conversion-Decimal to hexadecimal conversion-Hexadecimal to decimal conversion-Hexadecimal to octal conversionOctal to hexadecimal conversion-Binary codes-Classification of binary codes-BCD codes.
Modern University for Technology & Information – Faculty of Engineering
Page 180
Code: COME 216
Subject: Data Structure
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : To define the student the basic elements of structure of data-Applications to solve problems include thinking to get rid of repetition-The choice of methods of investigation-Data structures and theoretical and realistic ways of dealing with it, the topics include lists, group-Trees ranks priorityAssembling structures balanced trees-Tree advanced data structures-Applications to solve problems include thinking to get rid of repetition in the choice of methods of investigationMethods arrangement advanced: efficient ways of dealing-FrontPage, the analysis of the worst cases-The minimum of the complexities of the problem-The basic ways in the way the design algorithm include : division and overcome the obstacles stand and return to the starting location dynamic programming. Code: COME 217
Subject: System Software (I)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : The principles of programming languages-My SQL programming languages-The language and the installation of sense-Stages translations-Operating considerations-Memory section-A review of some languages-General Information about My SQL-What is My SQL?-The main features in My SQL-Which operating systems does My SQL support?-Compiling and installing My SQLMy SQL language reference: How do you write strings and numbers? Column types- More about data types Column indexes-Multiple field indexes-Type mapping (to ease moving table definitions between different databases engines)-How safe/stable is My SQL. Code: COME 218
Subject: System Software (II)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : The life cycle of software and applications, methods of assessing the needs of the customer understanding computer-The structural design of programs, the characteristics of the software and how to measure data representation-The central processing unit-Memory organization-Input devices-Output devices-Multimedia-Computer software-Disk operating system-Microsoft windows-Linux -Word processing- Spread sheet package-Presentation package, IT and society.
Modern University for Technology & Information – Faculty of Engineering
Page 181
Code: COME 219
Subject: Advanced Data Structure
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction: Basic definitions and basic operations, Data representation and storage ,fixed point and floating point formats, Applications of data structures-Arrays: storage of one dimensional arrays in memory Storage of two-dimensional arrays using row major and column major ordering.-Pointer arrays-Parallel array storage of records,-Operations on matrices and associated algorithms. - Storage of sparse matrices-Linear Lists: Definitions and properties, Stacks, definition, push and pop operations-Queues, definition, insertion, and deletion from circular queues .Dequeues, definition and basic operations-Linked Lists: Basic structures of header –free and header linked lists .Representation in memory-Traversing and searching linked lists for sorted and unsorted linked lists. Insertion and deletion algorithms. Two-way lists-Trees: Basic definitions and structures. Representation of binary trees in memory, Linked representation-String array representation, Terminating binary sequence (TBS) representation , Transformation of a general tree into binary tree , Traversing tree and traversal algorithms using stacks (Pre-order ,in order and post order traversals )-Threads and in order threading, Path length and Huffman's tree achieving using Huffman's algorithm-Searching: Introduction and searching types, Scanning-Direct scanning and controlled scanning, Binary search algorithm, Binary search trees, Definition, Searching and insertion into BST, Deletion from a BST, Building a BSST-Sorting: Introduction, Sorting algorithms using selection, exchange and insertion techniques, Complexity of algorithm, Bubble sort algorithm as an example for exchange technique ,Binary sort quick sort) algorithm.Heap sort algorithm-Applications to solving the problems that face the working groups - the upper limit and a minimum of the complexities of the problem - the design of algorithms-dynamic programming, ALSO due to studding C++.
Code: COME 220
Subject: Civil Engineering
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to Civil Engineering-Types of Buildings-Surveying-Properties of Materials-Concrete manufacture and Curing-Soil Mechanics and Foundations-Sanitary work-Roads , Air ports and Railways-Quantities and Specifications-Quality Control-Electrical Joints for Residential Structures and Non-residential Structures.
Modern University for Technology & Information – Faculty of Engineering
Page 182
Code: COME 221
Subject: Theory of Machines & Design
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Basic Considerations for the construction of machine elements-Strength criteria-Static and dynamic stress considerations-Shafts and axles-Key connections-Springs-Standard fasteningsPower screws-Pressure vessels -Riveted and weld connections-Couplings-Clutches and brakes. Code: COME 222
Subject: Manufacture Technology
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Cutting tools (Materials, Geometry, Types and Design)-Forming presses (types, mechanisms and applications)-Metal cutting machine tools (Turning, Drilling. Boring, Milling, Shaping, planning, Broaching, Special purpose, Gear and thread cutting and Super finishing machine tools)-Power and motion transmission in machine tools-Machine tools attachmentsIntroduction to jigs and fixtures.
Code: COME 223
Subject: Communication Systems
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction to communication& Basic concepts of communication process-Sources of information-Communication channels & media-Representation of signals & systems-Modulation process-Information theory & coding-Digital communication &communication networkClassification of signal &unit impulse function-Signals & operetorators, signal compression& correlation, signals & vectors-Trigonometric & exponential Fourier series-Signal & System analysis, Fourier transform and its properties, Fourier transform of periodic signals using direct functions-Signal transmission over comm. Channel &signal distortion over a comm. channel, signal energy & power spectral densities &correlation-Continuous-wave amplitude modulation, amplitude mod (DSB-SC)- amplitude mod(AM),QAM,SSB,VSB modulations, carrier acquisition, supuhetrodyne, AM receive &TV modulation and demodulation-Angle modulation: Basic concepts of Angle modulation.
Modern University for Technology & Information – Faculty of Engineering
Page 183
Code: COME 224
Subject: Computer Numerical Methods
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : To find the roots of the non linear equations of constraint-solving linear-Finding systems and the appointment of inverted values-Special vector of matrices curves fitting-Account numerical integration differentiation-LP-solving partial differential equations using different methods-The differences elements micro-computer applications for different ways-Matrix inverse-Root finding of equations-Numerical integration-Numerical differentiation-Errors.
Code: COME 225
Subject: Technical Report Writing
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : The types of technical reports-The components of short reports-The components of long reportsThe method of writing and revising the report-Technical methods of reports presentation-The method of evaluate reports-Collecting the information-Using graphs and statistics-Selecting and structuring the material-Readability and editing reports-Presenting the findings-Concluding and recommending- Summarizing.
Code: COME 226
Subject: Manufacture Accounting
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Study the fundamentals of science-Accounting applications in the preparation of financial balances of the project-fixed costs and variable costs-The foundations of the audit and evaluation-Transfer systems-management costs and quality-budget preparation-Financial analysis of the project.
Modern University for Technology & Information – Faculty of Engineering
Page 184
Code: COME 227
Subject: Legislations
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : The curriculum deals with the laws and the responsibilities and rights of interest to engineers-To discuss legislative contracts-Clarify the laws and legislation of interest to engineering in any field covered include examples of laws : the laws of the Engineers syndicate , contracts, city planning laws,The laws of the buildings construction, road works,Laws of dividing and protection the agricultural land,Industrial safety and security-Operational, jacks-Environmental protectionInsurance laws (accidents and fires)-Investment laws-The laws of irrigation-The relationship between landlord and the tenant-The laws of the post, union of industrial environmental law.
Code: STR ( II )
Subject: Field General Training
Credit Hours = 5 hr. Lecture
Exercises
Practical
0
0
60
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Business area.
Code: STR ( III )
Subject: Factories & Practical Training
Credit Hours = 5 hr. Lecture
Exercises
Practical
0
0
60
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Business area.
Modern University for Technology & Information – Faculty of Engineering
Page 185
Modules of Computer Engineering Department Phase III
Modern University for Technology & Information – Faculty of Engineering
Page 186
Code: COME 301
Subject: Computer Science & Data Management
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
0
3
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Computer science-An introduction about their historic development and their relation with skillsOperations Research-Systems analysis and system engineering-The principles of the main structure-Systems applications in different fields-Computer based systems-Communication systems-Industrial systems-Economic systems.
Code: COME 302
Subject: Real Time Operating Systems
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Description of real time operating systems-Structure-Sensors-Real-time Kernels-Queuing Models-Functional description-Performance-Requirements-Unites design-Programming language-Final Revision. Code: COME 303
Subject: Control Systems (I)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction to Control Systems-Mathematical Background-Mathematical modelling of Dynamic Systems-Transfer function-Block diagrams-Signal flow graph-State space representationTransient Response Analysis. Code: COME 304
Subject: Electromagnetic Fields
Credit Hours = 3hr.
Assessment
Lecture
Exercises
Practical
2
2
0
Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Coordinates Systems and Vectors analysis-Basic relations in electrostatic field-Gauss Law-Electro magnetic potential-Diverge theory-La-place equations-Poison equations-Electrostatic theoryElectromagnetic theories-Electromagnetic induction and Faraday law-Time continuous equationTime Varying Fields & Maxwell’s equations.
Modern University for Technology & Information – Faculty of Engineering
Page 187
Code: COME 305
Subject: Digital Signal Processing
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Signal, System and Signal processing-Classification of Signals-The concept of Frequency in Continuous-Time and Discrete-Time Signals-Analogue-to-Digital and Digital-to-Analogue Conversion-Fourier series (FS) and Fourier Transform (FT)-Discrete Fourier Transform (DFT) and Its Inverse-Computational complexity of the DFT-Autocorrelation, Cross-Correlation, and Convolution-Z-transform and its inverse- Properties of the Z-transform-Some applications of Ztransform in DSP-FIR filter design-IIF filter design. Code: COME 306
Subject: Microprocessor Based Systems
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Theory and design of microprocessors-Semiconductors technology-Architecture-Assembly language-Programming development-Input and output unites design-Communication-Applications
Code: COME 307
Subject: Data Communication Systems
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Signalling, encoding and modulation techniques-Interfaces -Modems-Transmission mediaMultiplexing- Error detection and correction- Data link control-Forward error correction Synchronous data link protocols-Switching techniques-Centralized topology design. Code: COME 308
Subject: Communication Networks
Credit Hours = 3hr.
Assessment
Lecture
Exercises
Practical
2
1
2
Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction to the principles of used in communication networks-Topics included discussion to use network communication -Measurements and ISO standard -Present ISDN B-ISDN-Modulation and signalling-Present LAN technology and protocols-Basic concept to evaluate network performance.
Modern University for Technology & Information – Faculty of Engineering
Page 188
Code: COME 309
Subject: Computer Organization
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Operation properties, writing and present offers and practical application-Programming languages and compilers Fundamentals-Syntax and semantic of programming languages-Compiler phasesOperation time consideration-Memory management-Programming languages summary.
Code: COME 310
Subject: Database Systems
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to database concepts-Database architecture-Storing and indexing structure-Data structure hierarchy-Focuses in relational database-SQL language and other languages depend on relational algebra-Aggregating and grouping data-Database theory-Design of a simple database and show query language Code: COME 311
Subject: Computer Networks
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Advanced course in computer Network-Computer Network protocol-Distributed systemsEngineering and application-Introduction to internet protocol-Hyper text transfer protocol –httpNetwork security
Code: COME 312
Subject: Computer Vision
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Image properties-Line and edges detection-Filtering-Grouping-Segmentation-Image partitioningDifferent conversions-Exclude the distinct properties-Object Recognition-Study and execute practical exercises in pattern recognition and classification.
Modern University for Technology & Information – Faculty of Engineering
Page 189
Code: COME 313
Subject: Image Processing
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Basic principles-Digital Image processing methods-Applications-Programming content-2-D converting-Basic treatment-Digit recognition-Focus on theories applications and practical problems. Code: COME 314
Subject: Computer Security
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Week points in security-Encryption and decryption-Security using encryption-Security development using encryption-Programs security-Information gates-Viruses-Operating system control-Management control-Design secure operating systems-Database security-Personal computer security-Network and communication security-Risk analysis-Legal and moral issues. Code: COME 315
Subject: Information Systems
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Information systems concepts-Information system content-Information systems roles-Data processing in information systems-Organization of information systems roles-Commercial systems processing-Files processing-Data relations-Database types-Relational data base-Shared databaseManagement systems-System analysis-System maintains.
Modern University for Technology & Information – Faculty of Engineering
Page 190
Code: COME 316
Subject: Robot Systems and Technology
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Static and dynamics of robots-Differential motion and Jacobean matrix of Robot-Path planning in joint and Cartesian space-Robot feedback-Robot control (Power-motion)-Robot vision-Robot programming Code: COME 317
Subject: Communication In Industry
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to information theory-Information Measures-Discrete Information sources-Discrete Information Source coding-Discrete Information channels-Capacity of discrete information channel-Continuous information channel-Capacity of Continuous information channel-Bit error rate performance for comm. Systems-Error control coding-Multiplexing of analogue and digital signals-introduction to TV & radio communication-Introduction Satellite communicationsIntroduction Fiber optic communications. Code: COME 318
Subject: Electric Power & Machines
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Circuit analysis of transformers-Transformer construction-Equivalent circuit of a transformerTransformer test-Construction of dc machines-Classification of dc machines-Circuit equations of dc machines-DC machine efficiency-Construction of induction motors-Torque-speed characteristics-Efficiency of induction motors-Circuit equations of synchronous machinesConstruction of synch machines-Operation of synch machines.
Code: COME 319
Subject: Control Systems (II)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Understand the analysis and design of continuous-time control systems-Analyze the stability of control system-Understand the root locus method-Understand the Nyquist method. Modern University for Technology & Information – Faculty of Engineering
Page 191
Code: COME 320
Subject: Neuro-Networks
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to natural neural networks-Introduction to artificial neural networks and parallel processing-Main component of neural networks-Neural network classification-Supervisor learning-Unsupervised learning-Neural networks deployment-Data gathering-Network structureLearning algorithms-Several models of neural network-Hon field modelBoltzman model-Neural networks and expert systems-Neural network applications.
Code: COME 321
Subject: Computer Controlled Systems
Credit Hours = 3hr.
Assessment
Lecture
Exercises
Practical
2
2
0
Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introducing Microcontrollers training kit or simulation software-The 8051 Microcontrollers Architecture-Memory Organization-Addressing modes-Instruction set-I/O ports and their functions-Timer / Counters-Interrupts-Serial communicationMemory decoding-Interfacing with the 8255PPI-Real world interfacing LCD, ADC, sensors , stepper motors , keyboard , DAC.
Code: COME 322
Subject: Engineering Systems Simulation
Credit Hours = 3hr.
Assessment
Lecture
Exercises
Practical
2
2
0
Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction of modelling-Simulation of continues and desecrate systems and systems that contain both-Simulation languages-Studying of some applications. Code: COME 323
Subject: Expert Systems
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Revision on Artificial Intelligence basics-Knowledge representation methods-Expert system architecture-Knowledge basis-User interface-Interference engine-Rules. Modern University for Technology & Information – Faculty of Engineering
Page 192
Code: COME 324
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Subject: Artificial Intelligence Assessment Final Mid Assignment Attendance Exam Term 40% 20% 15% 10%
Quizzes 15%
Practical Exam 0%
Content : Artificial Intelligence basics-Heuristic search-Symbolic knowledge-Logic calculus-Knowledge engineering and expert systems-Natural language processing-Knowledge representation-RobotApplications-Artificial Intelligence languages-Computer vision-Neural networks-Prolog languageApplication on Artificial Intelligence field.
Code: COME 325
Subject: Advanced Automatic Control
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Stability Analysis of Control System-Root Locus Method-Frequency Response Analysis-Control System Design by Root Locus-Control Systems Design by Frequency Response.
Code: COME 326
Subject: B.Sc. Project Premium
Credit Hours = 3 hr. Lecture
Exercises
Practical
0
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Project-Research: Similar projects either International or Local projects-Research: Data and location gathering. Code: COME 327
Subject: B.Sc. Project
Credit Hours = 5 hr. Lecture
Exercises
Practical
1
3
8
Assessment Defense
Research Phase
Design Phase
Production Phase
Assembly
Presentati on & Supervisor
40%
10%
10%
10%
10%
20%
Final
Content : Collection & technical data-Collection & theoretical background-Design and Technological procedures-Problem solving-Realization & design-Testing and inspection-Design & experimentWriting technical report-Follow up & technical work-Assembly & components-Presenting the product data-Evaluation & product efficiency. . Modern University for Technology & Information – Faculty of Engineering
Page 193
Code: COME 328
Subject: Engineering Economics
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Cash Flow-Compound Interest:-Time Value of Money-Nominal and Effective InterestEquivalence-Engineering Problem Analysis: -Depreciation-Income Taxes.
Code: COME 329
Subject: Environmental Impact of Projects
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Friendly environmental projects – Polluted projects – Solid, liquid and gas pollutants – Audiovisual pollution – Different ways for calculation of the environmental effects on projects Environmental control and International specifications - ISO14000. Code: COME 330
Subject: Feasibility Studies
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to Industry-Market Study-Project gap and plant size-Technical studies-Technology selection-Project Scheduling-Economical study-Social study-Environmental study-Financial Analysis-Resource Management. Code: STR ( IV )
Subject: Field Training
Credit Hours = 5 hr. Lecture
Exercises
Practical
0
0
60
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Business area
Modern University for Technology & Information – Faculty of Engineering
Page 194
Modules of Architectural Engineering Department Phase II
Modern University for Technology & Information – Faculty of Engineering
Page 195
Code: ARCH 201
Subject: Fundamentals of Architecture Design
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Project-Analysis of program elements-Research on residential buildings-Zoning (bubble diagram – matrix of function)-3d modelling (masses + site)-Concept development till final approval-Drawing final layout ( to scale )-Drawing Ground floor plan-Final plans-Final elevations-Drawing 2 sections-Drawing final skis ( pre-complete project )-Representing final project & Jury. Code: ARCH 202
Subject: Architecture Design (I)
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Simple public projects of simple elements and relations (Restaurant – cafeteria – libraries….etc.) Project (1):Analysis of program elements-Research on residential buildings-Zoning (bubble diagram – matrix of function)-3d modelling (masses + site)-Concept development till final approval-Drawing final layout ( to scale )-Drawing Ground floor plan-Final plans-Final elevationsDrawing 2 sections-Drawing final skis ( pre-complete project )-Representing final project & JuryProject (2) :Analysis of program elements-Research on residential buildings-Zoning (bubble diagram – matrix of function)-3d modelling (masses + site)-Concept development till final approval-Drawing final layout ( to scale )-Drawing Ground floor plan-Final plans-Final elevationsDrawing 2 sections-Drawing final skis ( pre-complete project )-Representing final project & jury Jury. Code: ARCH 203
Subject: Architecture Design (II)
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Project depends mainly on required function (medical unit – library – office building…..etc.) Project (1):Analysis of program elements-Research on residential buildings-Zoning (bubble diagram – matrix of function)-3d modelling (masses + site)-Concept development till final approval-Drawing final layout ( to scale )-Drawing Ground floor plan-Final plans-Final elevationsDrawing 2 sections-Drawing final skis ( pre-complete project )-Representing final project & JuryProject (2):Analysis of program elements-Research on residential buildings-Zoning (bubble diagram – matrix of function)-3d modelling (masses + site)-Concept development till final approval-Drawing final layout ( to scale )-Drawing Ground floor plan-Final plans-Final elevationsDrawing 2 sections-Drawing final skis ( pre-complete project )-Representing final project & Jury. Works Painting Works - &Specifications of Concrete Materials - Admixtures Modernand University for Technology Information – Faculty of Engineering Page 196 Manufacturing of Concrete - Fresh Concrete and its Tests - Hardened Concrete and its Tests Polymers - Polymer Materials Strengthened with Fibers.
Code: ARCH 204
Subject: Architecture Design (III)
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : A project on a real piece of land respecting the legislative constraints of the surrounding area with studying the architecture integral elements of it. -A project through which studying different architecture styles and designing a project (Islamic – rustic – pharonic…..etc.) Project (1):Analysis of program elements-Research on residential buildings-Zoning (bubble diagram – matrix of function)-3d modelling (masses + site)-Concept development till final approval-Drawing final layout ( to scale )-Drawing Ground floor plan-Final plans-Final elevationsDrawing 2 sections-Drawing final skis ( pre-complete project )-Representing final project & JuryProject (2):Analysis of program elements-Research on residential buildings-Zoning (bubble diagram – matrix of function)-3d modelling (masses + site)-Concept development till final approval-Drawing final layout ( to scale )-Drawing Ground floor plan-Final plans-Final elevationsDrawing 2 sections-Drawing final skis ( pre-complete project )-Representing final project & Jury.
Code: ARCH 205
Subject: Building Construction (I)
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Building tools & materials – Symbols and expressions-Architecture drawings (working drawings – construction drawings – workshops)-Construction systems (bearing walls – skeleton system – space construction)-Foundations (surface – deep foundations)-Brick walls – Masonry walls – Arches – Lintels-Insulation members (Thermal insulation – waterproofing – sound insulation)-Surface-resistance structural (reinforced – wooden - steel structures). Code: ARCH 206
Subject: Building Construction (II)
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Wood (kind of wood and dovetailing)-Wooden roofs (sections and details)-Wood working (Technique of installation and fixation of wooden doors)-Wood working (Technique of installation and fixation of wooden windows)-Steel working.
Modern University for Technology & Information – Faculty of Engineering
Page 197
Code: ARCH 207
Subject: Building Construction (III)
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Flooring finishing-Settlements & expansion joints-Retaining walls (uses –types)-Stairs (components and design)-Kind of stairs (reinforced – wooden – steel stairs). Code: ARCH 208
Subject: Theory of Architecture (I)
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Human behaviour and design-Regeneration of architectural concepts-Types and typologiesBuildings' elements and components-Design of private residential units.
Code: ARCH 209
Subject: Theory of Architecture (II)
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Circulation elements(vertical and horizontal circulation elements)-Process of public building design-Public use units(cafeterias, restaurants, libraries, ….etc)-Supporting elements(food and beverage preparation service, laundry,stores,…. etc). Code: ARCH 210
Subject: Theory of Architecture (III)
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Circulation elements(vertical and horizontal circulation elements)-Process of public building design-Public use units(cafeterias, restaurants, libraries, ….etc)-Supporting elements(food and beverage preparation service, laundry, stores,…. etc).
Modern University for Technology & Information – Faculty of Engineering
Page 198
Code: ARCH 211
Subject: History of Architecture (I)
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Prehistoric architecture-Ancient Egyptian Architecture-Hellenistic ArchitectureGreek Architecture-Roman Architecture. Code: ARCH 212
Subject: History of Architecture (II)
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Christian age-Coptic architecture-Byzantine architecture-Gothic style in Europe-Architecture of the European renaissance age. Code: ARCH 213
Subject: History of Architecture (III)
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Tolono Period-Fatimid Period-Maluku Period-Aube Period-Ottoman Period. Code: ARCH 214
Subject: Perspective and Sciography
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to shades and shadows, Shade of points and lines-Shades of plains and surfacesShades and shadows of objects and masses (prisms - cone and cylinder)-Architectural applicationsOne vanishing point perspective-Interior perspective-Two vanishing points perspective-Shades and shadows in perspective.
Modern University for Technology & Information – Faculty of Engineering
Page 199
Code: ARCH 215
Subject: Visual Training (I)
Credit Hours = 2 hr. Lecture
Exercises
Practical
0
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Thickness of lines-Different techniques for sketching-Drawing 2D drawings-Techniques for drawing 3D drawings-Shade and shadows in 3D drawings. Code: ARCH 216
Subject: Theory of Structure (I)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Stresses and Strains-Introduction to Static-Types of Loads, Supports and Reactions-Stability and Determinacy of Structures-Internal Forces for Beams-Internal Forces for Frames-Internal Forces for Trusses-Internal Forces for Arches.
Code: ARCH 217
Subject: Properties and Receptivity of Materials
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Standard Experiments , Specifications and Engineering Materials-Mechanical Properties and Tests of Metals-Steel Reinforcement ( types and tests )-Corrosion of Metals and ways of protectionAggregates ( types – properties – tests )-Artificial Stones and Timber-Cement ( production way – types – hydration – properties – tests )-Lime and Gypsum-Whitewash Works and Painting WorksSpecifications of Concrete Materials and Admixtures-Manufacturing of Concrete-Fresh Concrete and its Tests-Hardened Concrete and its Tests-Polymers and Polymer Materials Strengthened with Fibers. Code: ARCH 218
Subject: Surveying
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
1
2
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Surveying fundamentals-Maps and planes-Linear surveying-Angular measurements: compass, bearing and azimuth-Theodolite-Traverse surveying-Traverse computations-Levelling-ContouringAreas and volumes-Setting out construction work.
Modern University for Technology & Information – Faculty of Engineering
Page 200
Code: ARCH 219
Subject: Modern Architecture
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : The concept of contemporary architecture-The difference between contemporary architecture and traditional one-Studying the formation and development of modern architecture-The concept and trend of post modern- architecture Local / Environmental / Technological architecture.
Code: ARCH 220
Subject: Mathematics (III)
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Infinite series and expansion of functions-Ordinary differential equations: first order Separable, homogeneous, Exact, and linear Equations. nth order D.E with constant coefficients. (homogeneous and non homogeneous)-Functions of several variables: Partial differentiation, maximum and minimum values, Lagrange’s multipliers and conditional extreme, envelopes-Vectors analysis: gradient of scalar fields, divergence and curl of vector fields, Green's - Gauss's - Stoke's theoremsMultiple integrals: double integral, triple integral, line integral and surface integral-Functions of complex variable: analytic functions, Cauchy theorem, bilinear transformations, conformal mapping complex differentiation, Complex integrals, Cauchy integral formula, Taylor's and Laurent's series, singular points poles, residue, complex integrals Contour integration.
Code: ARCH 221
Subject: Preservation of Civil and Environmental
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Definition of upgrading, maintenance and preservation-Principles of preservation and maintenance-Methods and politics of preservation-Relation between preservation projects and urban planning-The connotation of equilibrium and continuity of built environment-Determine preservation and maintenance areas-Analysis and registration of historic districts.
Modern University for Technology & Information – Faculty of Engineering
Page 201
Code: ARCH 222
Subject: Environmental Control
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : The natural environmental system-Thermal comfort inside the building-Climate Architecture principles-Natural energy for buildings-Energy consumption at buildings-Principles of Green Architecture. Code: ARCH 223
Subject: Climate and Architecture Design
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Bioclimatic analysis-Environmental control on urban scale-Landscaping principles-Elements of control on building design-Design of over hangs and fins-Day lighting & noise control technique. Code: ARCH 224
Subject: Computer Application(I)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
1
2
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Computer Structure-Computer systems and files-Computer networks and internet-HTML language in building web pages of the websites on the internet-Front Page language in building web pages of the websites on the internet-Computer graphics-Logical design of program-Final Revision. Code: ARCH 225
Subject: Operation Research
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Linear Programming Review-Integer Linear Programming Review-Nonlinear Programming-Goal & Dynamic Programming-Replacement Theory-Modelling & Simulation-Decision Theory Review-Queuing Theory-Games Theory.
Modern University for Technology & Information – Faculty of Engineering
Page 202
Code: ARCH 226
Subject: Numerical Methods
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Finding roots for nonlinear algebraic equation-Linear matrices solution-Calculating the inverseThe determinant-The characteristic vectors of matrices-Compromise curves-Calculate integration and numerical differentiation- Numerical solution of differential equation-Solution of partial differential equations using finite difference and finite elements methods.
Code: ARCH 227
Subject: Statistics Methods
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Probability & distribution: frequency distributions, laws of probability distribution-Industrial quality control: aims, quality system design, process control charts, sampling plans-Forecasting: purpose, demand patterns, regression analysis, adaptive techniques-Experiment design & analysis: samples, predictions, significance, economic design of experiments ( introduction to analysis of variance). Code: ARCH 228
Subject: Building Construction IV
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to prefab building construction /Suitable material –joining elements & techniques
Code: ARCH 229
Subject: Technical Reports Writing
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Types of Technical Reports-Components of Small Reports-Components of Long Reports-Writing Methods-Reports review-Ways of Presenting Technical Reports-Reports Evaluation.
Modern University for Technology & Information – Faculty of Engineering
Page 203
Code: ARCH 230
Subject: Industrial Psychology
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Industrial Design-Design concepts-Ergonomics-Application of ergonomics-Instruments-ControlsWork place-Aesthetic and ergonomics consideration-Working conditions and EnvironmentHeating and Ventilation-Local Ventilation-Industrial Ventilation-Air condition systems-CheckOzone-depletion and Global Warning -Noise – Expo sure to noise-Noise control-techniqueVibration-Lighting-Level of luminance-Factors-affecting the quality of lighting-Human effectiveness. Code: ARCH 231
Subject: Ethics Studies
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Human gender-Human needs-Civilization improvement-Gender combination and its effect on proceeding in building construction process.
Code: ARCH 232
Subject: Visual Training (II)
Credit Hours = 2 hr. Lecture
Exercises
Practical
0
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Colour as phenomena, colour symbol-Colour development & colour properties-Physiology & psychology of colour effect-Analysis of sunrays colours of the rainbow-Colour classification, notation & hue-Value & chrome of colour-Cool & warm colours-Combining & contrasting colours-Harmony & disharmony of colours-Colours & culture-The colours environmentColours & building / in elevations & details- International studies. Jean Philippe. Code: STR ( II )
Subject: Field General Training
Credit Hours = 5 hr. Lecture
Exercises
Practical
0
0
60
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Business area.
Modern University for Technology & Information – Faculty of Engineering
Page 204
Code: STR ( III )
Subject: Practical Training
Credit Hours = 5 hr. Lecture
Exercises
Practical
0
0
60
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Business area.
Modern University for Technology & Information – Faculty of Engineering
Page 205
Modules of Architectural Engineering Department Phase III
Modern University for Technology & Information – Faculty of Engineering
Page 206
Code: ARCH 301
Subject: Architecture Design (IV)
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Project (1):Research: Similar projects either International or Local projects-Research: Data and location gathering (site analysis, climatic studies, zoning and analysis of similar projects-Design concept-3-D modelling (masses + site)-Sketch 1-Theoretical lecturing-Design DevelopmentSketch 2-Reviewing Sketches-Design Development-Drawing final skis ( pre-complete project )Representing final project & Jury-Project (2):Research: Similar projects either International or Local projects-Research: Data and location gathering (site analysis, climatic studies, zoning and analysis of similar projects-Design concept-3d modelling (masses + site)-Sketch 1-Theoretical lecturing-Design Development-Sketch 2-Reviewing Sketches-Design Development-Drawing final skis ( pre-complete project )-Representing final project & Jury. Code: ARCH 302
Subject: Working Drawings (I)
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction studio to preparing working drawing documents through the study of specialized sets of drawing (Symbols of each - Information and data - Dimensions and levels - Finishing tables and opening tables)-Coordination between specialists-students prepare and produce a whole set of working drawing in duding architectural (Plumbing and electrical drawings)-Avon project-PlansSections-Elevation-Finishing's and opening tables-Layout-Architectural details-Preparation of workshops and as dual drawing-Representing final project& jury. Code: ARCH 303
Subject: Working Drawings (II)
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Study of two projects of large spans and untraditional forms and developing the Avon projects and convert them to working drawings concentrating on the architectural details-Construction system for long spans-Coordination between specialists electrical – sanitary)-Avon project-Plans-sectionsElevation-Finishing's and opening tables-Layout-Architectural details-Preparation of workshops and as dual drawing-Representing final project & jury.
Modern University for Technology & Information – Faculty of Engineering
Page 207
Code: ARCH 304
Subject: Technological Installation For Buildings
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Main concepts of heat gain / loss for space-Proportion of building materials-Calculation methods for heat gain / loss for general building-Main concepts for material selections-Concepts of natural light for space-Design of natural light-Calculations of light fixtures-Types of light fixtures-Lay out for light fixtures for space-Acoustic of enclosure-Acoustical requirements in acoustical designSound insulation in buildings. Code: ARCH 305
Subject: Technical Sanitary Installations
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Water Supply in buildings-Drainage and Sewerage-Wet areas in private and public buildingsPlumbing fixture in buildings.
Code: ARCH 306
Subject: Theory of Architecture (IV)
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : The influences of the industrial revolution on architectural and art in 19th century-Architectural trends and schools in 19th-The Modern Architecture & its pioneers- Hi-tech-Deconstruction- Post Modernism.
Code: ARCH 307
Subject: Town Planning (I)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : The beginning of the city Applications-Historical background of ancient Egyptian civilization, planning of Greek and roman cities-Planning definition , elements & level-Site analysis studiesEvaluating site analysis studies-Simian on neighbour hoods (Introduction of neighbour hoods ).
Modern University for Technology & Information – Faculty of Engineering
Page 208
Code: ARCH 308
Subject: Soil Mechanics & Foundation
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
2
1
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Introduction to Geotechnical Engineering-Soil Formation-Basic Properties of Soil-Natural Properties of Soil-Sieves analysis-Constancy and Atterberg limits-Soil Classification-Compression and settlement-Laboratory tests-Types of Foundations-Design of Isolated Footings-Design of Combined Footings.
Code: ARCH 309
Subject: Theory of Structure (II)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Influence lines of statically determinant structures-Determine principle axis using Mohr's circleStraining actions-Normal Stresses in homogenous elastic bodies-Direct Shear in Bolts and WeldShear Flow-Shear Stresses due to Bending and Twisting Moments-Combined Stresses-Torsion
Code: ARCH 310
Subject: Reinforced Concrete Design
Credit Hours = 4 hr. Lecture
Exercises
Practical
2
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to the Mechanical Properties of Reinforced Concrete Components- Design of One Way Solid Slabs and Two Way Solid Slabs-Detailing of Solid Slab Reinforcement-Load Distribution for Beams-Design of Shear for Beams and Design of Sections under Moment onlyDetailing of Reinforcement for Beams-Design of Sections under Eccentric Loads-Design and Detailing of Reinforcement for Columns-Panelled Beams-Hollow Blocks Slabs-Flat Slabs.
Modern University for Technology & Information – Faculty of Engineering
Page 209
Code: ARCH 311
Subject: Steel Construction
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to Steel Structures-Principles of Design and Loads-Structural Systems and Resistance to Horizontal forces-Bolted and Welded Connections-Design of Tension members-Design of Compression members-Buckling of Compression members-Design of Beams-Local and Lateral Buckling-Design of Beam-Columns-Built up Sections-Design of Composite Beams. Code: ARCH 312
Subject: Quantities & Specifications
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction to the writing of specifications documents presented with working drawings as part of the contract documents-General and special conditions of the job-Defining the scope of work and detailed descriptions of items and materials-Quantity Surveying (rules and methods) -Check listing of the finished work and detecting faulty items.
Code: ARCH 313
Subject: Building Construction Equipments
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Tractors and Building Equipments-Lifting Equipment-Soil Compacting Equipments-Basic Definition in Electric Circuits-A.C. Current Circuits-Electric Engines-D.C. Current CircuitsSmall Power Engines-Concrete Pumps and Dewatering Pumps- Mixers-Vibrator Rods-Mixing Station-Cables -Transportation Way of Currents. Code: ARCH 314
Subject: Interior Design
Credit Hours = 3 hr. Lecture
Exercises
Practical
1
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Principles of interior design-Finishing elements-Physiology & psychology of colour effectHarmony & disharmony of colours-Compatibility between furniture and colours.
Modern University for Technology & Information – Faculty of Engineering
Page 210
Code: ARCH 315
Subject: Town Planning (II)
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Planning elements & introducing the project-Site analysis studies- Following up the site analysis studies & evaluation-Solving strategies ( following up the alternatives)- Evaluating alternativesPlanning and design the housing areas and the economics- social that effect them-Simian on neighbour hoods (Introduction of neighbour hoods ). Code: ARCH 316
Subject: Modular Coordination Urban Planning
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction-Urban design theories-Urban Regulations-Visual perception-Project. Code: ARCH 317
Subject: Design & Development of Rural Areas
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Approach of design and development of rural areas-Economical and social development of Egyptian rural areas-Characteristic of rural areas-Studies in planning and design of rural areasHistorical and internal examples-Following up and evaluate this examples.
Code: ARCH 318
Subject: Computer Application ( II )
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
0
3
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction-Getting Started-Drawing with precision-Drawing objects-Modifying drawing objectslayers & object properties.
Modern University for Technology & Information – Faculty of Engineering
Page 211
Code: ARCH 319
Subject: Architecture Design Using Computer
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
0
3
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Accessing MAX Script-Modelling & modifying & rendering-MAX Script syntax an terminologyLighting & background-Materials- 2D modelling-AX Script tools and interaction with 3D MaxCamera & view ports.
Code: ARCH 320
Subject: Smart Building Design
Credit Hours = 3 hr. Lecture
Exercises
Practical
2
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Smart Building Systems-Emerging Technologies-Sustainable Building System (optimize site potential – minimize energy consumption – protect and conserve water)-Communication and Automated Building System-Green Architecture (green roof system)-Stick Building SystemPrefabricated Building System. Code: ARCH 321
Subject: Solar Architecture
Credit Hours = 2 hr. Lecture
Exercises
Practical
2
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Source of energy and its conversion-Principles of climatic architecture-Natural energy for buildings-Qualification of energy consumption in buildings-Energy consumption at buildingsPrinciples of Green Architecture.
Modern University for Technology & Information – Faculty of Engineering
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Code: ARCH 322
Subject: Hospital Buildings
Credit Hours = 3 hr. Lecture
Exercises
Practical
1
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Provide the student with the information related to the main architecture difference between variant kinds of hospital buildings- Project- Research: Similar projects either International or Local projects-Research: Data and location gathering (site analysis, climatic studies, zoning and analysis of similar projects-Design concept-3D modelling (masses + site)-Sketch 1-Theoretical lecturingDesign Development-Sketch 2-Reviewing Sketches-Design Development-Drawing final skis ( precomplete project )-Representing final project & Jury. Code: ARCH 323
Subject: Hospital Buildings Design
Credit Hours = 3 hr. Lecture
Exercises
Practical
1
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : The course aims to achieve the complete deign for every unit of the hospitals- Project- Research: Similar projects either International or Local projects-Research: Data and location gathering (site analysis, climatic studies, zoning and analysis of similar projects-Design concept-3D modelling (masses + site)-Sketch 1-Theoretical lecturing-Design Development-Sketch 2-Reviewing Sketches-Design Development-Drawing final skis ( pre-complete project )-Representing final project & Jury. Code: ARCH 324
Subject: Educational Buildings
Credit Hours = 3 hr. Lecture
Exercises
Practical
1
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : The course aims to define the main design requirements for each unit of the educational buildingsProject- Research: Similar projects either International or Local projects-Research: Data and location gathering (site analysis, climatic studies, zoning and analysis of similar projects-Design concept-3D modelling (masses + site)-Sketch 1-Theoretical lecturing-Design Development-Sketch 2-Reviewing Sketches-Design Development-Drawing final skis ( pre-complete project )Representing final project & Jury. .
Modern University for Technology & Information – Faculty of Engineering
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Code: ARCH 325
Subject: Educational Buildings Design
Credit Hours = 3 hr. Lecture
Exercises
Practical
1
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : The course aims to achieve the primary project of high school and university buildings- ProjectResearch: Similar projects either International or Local projects-Research: Data and location gathering (site analysis, climatic studies, zoning and analysis of similar projects-Design concept3D modelling (masses + site)-Sketch 1-Theoretical lecturing-Design Development-Sketch 2Reviewing Sketches-Design Development-Drawing final skis ( pre-complete project )Representing final project & Jury. Code: ARCH 326
Subject: Restoration (I)
Credit Hours = 3 hr. Lecture
Exercises
Practical
1
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : The dominant method that affect the assumed age of the building-Study methods, components and steps of project maintenance and restoration-Surveying, documentation and preservation of building maintenance-An application study to one of the historical buildings.
Code: ARCH 327
Subject: Restoration (II)
Credit Hours = 3 hr. Lecture
Exercises
Practical
1
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Properties of the historical buildings-The damage that affects historical buildings-Legislation of building protection-Preservation of historical building-Reparation of project restorationDocumentation methods of historical buildings and sites-The international documentation for historical buildings preservation-Adaptation of the historical building surroundings.
Modern University for Technology & Information – Faculty of Engineering
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Code: ARCH 328
Subject: BS.c Project Premium
Credit Hours = 3 hr. Lecture
Exercises
Practical
0
4
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Project- Research: Similar projects either International or Local projects-Research: Data and location gathering (site analysis, climatic studies, zoning and analysis of similar projects). Code: ARCH 329 Credit Hours = 10 hr.
Subject: B.Sc. Project Assessment
Lecture
Exercises
Practical
4
12
0
Defense
Research Phase
Design Phase
Production Phase
Assembly
Presentation & Supervisor opinion
40%
10%
10%
10%
10%
20%
Final
Content : Project- Research: Similar projects either International or Local projects-Research: Data and location gathering (site analysis, climatic studies, zoning and analysis of similar projects-Design concept-3D modelling (masses + site)-Sketch 1-Theoretical lecturing-Design Development-Sketch 2-Reviewing Sketches-Design Development-Drawing final skis ( pre-complete project )Representing final project & Jury.
Code: ARCH 330
Subject: Urban Renewal
Credit Hours = 2 hr. Lecture
Exercises
Practical
1
2
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : General introduction on renovation-The concept of the city and its planning-Planning process (optimal size of a city, criteria for site selection, planning design criteria,…..etc.-Land-use planning- Basic planning variables (green belt and open spaces size, transportation and proximity….etc.)- Social and economic structure (social services, neighbourhood,….etc.). Code: ARCH 331
Subject: Building Economics
Credit Hours = 1 hr. Lecture
Exercises
Practical
1
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Planning-Feasibility studies-Depreciation-Applications.
Modern University for Technology & Information – Faculty of Engineering
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Code: ARCH 332
Subject: Accounting
Credit Hours = 1hr.
Assessment
Lecture
Exercises
Practical
1
0
0
Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction-The Accounting cycle of data accumulation-Financial statement-Accounting for inventories- Accounting for specific assets & liabilities-Management & Accounting-Balance sheet-Introductory management accounting.
Code: ARCH 333
Subject: Feasibility Studies
Credit Hours = 1 hr. Lecture
Exercises
Practical
1
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction-Market Study & Forecasting-Technical Study & Technology Selection-Economical Study-Social Study-Financial Studies-Environmental Studies-Case Study. Code: ARCH 334
Subject: Legislations
Credit Hours = 1 hr. Lecture
Exercises
Practical
1
0
0
Assessment Final Exam 40%
Mid Term 20%
Assignment
Attendance
Quizzes
15%
10%
15%
Practical Exam 0%
Content : Introduction on the professional and legal responsibilities of the architect-Building RegulationsRegulations for urban planning-Legislations& rules for urban planning-The architects' legal responsibilities- The contractors' legal responsibilities-Relation Between the owners , the architect and the contractor-Principles of professional practice - Scope of work - Fees – Tenders-Contracts between owners and architect and between owner and contractor.
Code: STR ( IV )
Subject: Field & Practical Training
Credit Hours = 5 hr. Lecture
Exercises
Practical
0
0
60
Assessment Final Exam 40%
Mid Term 15%
Assignment
Attendance
Quizzes
10%
10%
10%
Practical Exam 15%
Content : Business area.
Modern University for Technology & Information – Faculty of Engineering
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