Name: ___________________________________ Circular Motion and Inertia
Read from Lesson 1 of the Circular and Satellite Motion chapter at The Physics Classroom: http://www.physicsclassroom.com/Class/circles/u6l1c.html http://www.physicsclassroom.com/Class/circles/u6l1d.html Review Questions: 1. Newton's first law states: An object at rest will An object in motion will unless acted upon by 2.
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Inertia is ...
Applications of Newton's First Law to Motion in Circles: The diagram below depicts a car making a right hand turn. The driver of the car is represented by the circled X. The passenger is represented by the solid circle. The seats of the car are vinyl seats and have been greased down so as to be smooth as silk. As would be expected from Newton's law of inertia, the driver continues in a straight line from the start of the turn until point A. The path of the driver is shown. Once at point A, the door pushes the driver inward towards the center of the circle. With an inward force, the driver can make the circular turn. 3. On the same diagram, show the path of the passenger from the start of the turn until the passenger strikes the driver. Mark the passenger's position with a solid circle. Put a dot at the point where the driver and passenger make contact; label this as point B. 4. Describe the motion of the passenger from the start of the turn until point B.
Describe the motion of the passenger from point B for the rest of the turn.
5.
6.
From point B for the remainder of the turn, place arrows on the diagram to indicated the direction of the force of the driver pushing on the passenger. Label these arrows with an F. In this example, the collision between the passenger and the driver can be explained by exerting that _____ . a. an outward force pushed the passenger towards the driver. b. an outward force pulled the passenger towards the driver. c. the passenger traveled straight ahead and an inward force pushed the driver into the passenger.
7.
Rex Things and Doris Locked are out on a date. Rex makes a rapid right-hand turn. Doris begins sliding across the vinyl seat (which Rex had waxed and polished beforehand) and collides with Rex. To break the awkwardness of the situation, Rex and Doris begin discussing the physics of the motion that was just experienced. Rex suggests that objects that move in a circle experience an outward force. Thus, as the turn was made, Doris experienced an outward force that pushed her towards Rex. Doris disagrees, arguing that objects that move in a circle experience an inward force. In this case, according to Doris, Rex traveled in a circle due to the force of his door pushing him inward. Doris did not travel in a circle since there was no force pushing her inward; she merely continued in a straight line until she collided with Rex. Who is correct? ________ Argue one of these two positions.
8.
Noah Formula guides a golf ball around the outside rim of the green at the Hole-InOne Putt-Putt Golf Course. When the ball leaves the rim, which path (1, 2, or 3) will the golf ball follow? ___________ (Note that this diagram depicts the God's eye view.) Explain why.
9.
Suppose that you are a driver or passenger in a car and you travel over the top of a small hill in the road at a high speed. As you reach the crest of the hill, you feel your body still moving upward; your gluts might even be pulled off the car seat. It might even feel like there is an upward push on your body. This upward sensation is best explained by the a. tendency of your body to follow its original upward path b. presence of an upward force on your body c. presence of a centripetal force on your body d. presence of a centrifugal force on your body
10. Darron Moore is on a barrel ride at an amusement park. He enters the barrel and stands on a platform next to the wall. The ride operator flips a switch and the barrel begins spinning at a high rate. Then the operator flips another switch and the platform drops out from under the feet of the riders. Darron is plastered to the wall of the barrel. This sticking to the wall phenomenon is explained by the fact that ________. a. the ride exerts an outward force on Darron which pushes him outward against the wall b. Darron has a natural tendency to move tangent to the circle but the wall pushes him inward c. air pressure is reduced by the barrel's motion that causes a suction action toward the wall d. the ride operator coats the wall with cotton candy that causes riders to stick to it Always take time to reflect upon your own belief system that governs how you interpret the physical world. Be aware of your personal "mental model" which you use to explain why things happen. The idea of this physics course is not to acquire information through memorization but rather to analyze your own preconceived notions about the world and to dispel them for more intelligible beliefs. In this unit, you will be investigating a commonly held misconception about the world - that motion in a circle is caused by an outward (centrifugal) force. This misconception or wrong belief is not likely to be dispelled unless you devote some time to reflect on whether you believe it and whether it is
circled X. The passenger is represented by the solid circle. ... Always take time to reflect upon your own belief system that governs how you interpret the. physical ...
net force acting upon the object are displayed at the bottom of the screen. The animation can be. started, paused, continued or rewound. After gaining familiarity with the program, use it to answer the following questions: 2. Velocity is a vector qua
the mass. 60.0 5.98x1024 3.18x106 A typical student on an Earth with half. the radius. 60.0 5.98x1024 6.47x106 A typical student in orbit 60 miles above. the Earth. 60.0 1.2x1022 1.15x106 A typical student on the surface of the. Pluto. 60.0 1.901x102
What is the moon's period (in days)?. Object Radius (m) Accel'n (m/s/s) vel. (m/s) T (hrs or days). Man - 310 mi. Man - 22 500 mi. Moon. 9. Explain why the man would want to orbit at 22 500 miles above the surface of the Earth. Page 2 of 2. Circular
2. Diameter of earth = 12800km. Radius R = 6400km = 64 Ã 105 m. V = T. R2 ..... of mass 'm' moves on a horizontal circle against the wall of a cylindrical room of ...
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acceleration (toward the centre of the circle). This force is called CENTRIPETAL FORCE. Centripetal force can be supplied by a number of different methods. For example, the moon is in a circular orbit around the earth due to gravity acting as a centr
Dynamics: Note 10. Vertical Circular Motion. Circular motion is not always in the horizontal plane. Sometimes circular motion is vertical. An example of this is a ... A pilot of mass 70.0 kg in a jet goes for a loop-de-loop. The airplane goes around
Go online. Useful data: Gravitational acceleration on Earth g. 9.8 m s-2. Q1: An object is moving with a uniform acceleration of 5 m s-2. A displacement-time ...... Q8: A disc is spinning about an axis through its centre with constant angular velocit
No part of this publication may be reproduced, stored in a retrieval system or transmitted in any form or by any ...... So 360. ⦠is equivalent to 2Ï rad, and this relationship can be used to convert from radians to degrees, and vice versa. It is
frequency,with an amplitude determined by a balance between the energy added by the driving force and the energy dissipated by the damping. The behavior ...
Jun 14, 2016 - South Carolina Coastal Council, 505 U.S. 1003 (1991) and under Penn Central ...... Hotel Waikiki Corp. et al, 119 Haw. 321 (2008); Stanford ...
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Jun 14, 2016 - ... his J.D. from Northeastern University School of Law in Boston, ...... sections on effective timeline for "official action" and whether Bridge.
To begin with,. Plaintiffs' counsel repeatedly informed BLM and opposing counsel of Plaintiffs' intent to file a. lawsuit in the event that BLM chose to deny public access to these experiments. Similarly,. Plaintiffs' counsel reached out to the Unite
augmented point cloud constructed with our framework and demonstrate its practical use in correcting the pose of a street-level image collection. 1. Introduction.
Jun 22, 2006 - communication with an audio generator that is operative to receive a signal ... frequency of the electrical signal is not such that it would interfere ...
specific, use reference points and a set of reference ... non-moving objects as reference poınts? The Earth is a common reference point .... Think it through.