A) N > W B) N = W C) N < W. speed v. Answer: N = W



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Transcription:

CTN-12. Consider a person standing in an elevator that is moving upward at constant speed. The magnitude of the upward normal force, N, exerted by the elevator floor on the person's feet is (larger than/same as/ smaller than) the magnitude of the downward weight, W, of the person. A) N > W B) N = W C) N < W speed v Answer: N = W Now suppose the elevator is accelerating upward. How does the normal force compare to the weight of the person then? A) N > W B) N = W C) N < W Answer: N > W

CTN-13. A glider on a level air track is coasting along at constant velocity. Which of the following free-body diagrams correctly indicates all the forces on the glider? Assume that there is no air resistance or friction. v = constant A B C D E) None of these Answer: A CTN-14. A moving van collides with a sports car in a high-speed head-on collision. Crash! During the impact, the truck exerts a force truck on the car and the car exerts a force car on the truck. Which of the following statements about these forces is true? A) The force exerted by the truck on the car is the same size as the force exerted by the car on the truck: truck = car B) truck > car C) truck < car Answer: truck = car by Newton s 3 rd Law

CTN-15. A book sits on a table. Everything is at rest. The normal force from the table on the book is equal in magnitude to the weight of the book. N = "normal" force W = mg Are the normal force and the weight force members of an "action-reaction" pair from Newton's 3 rd Law? A) Yes B) No C) Impossible to answer Answer: No. These two forces (N and W) are acting on the same object, the book. The action-reaction pair of NIII act on different objects. CTN-16. Skinny and atty are having a tug-of-war. So far, no one is winning. Q1) What is the direction of the force of friction from the floor on Skinny's feet A) Right B) Left S? Q2) How large is the force of friction on Skinny's feet S compared to the force of friction on atty's feet? A) S > B) S = C) S < Hint for Q2: The free-body diagrams for Skinny and atty looks like: S Rope on S Rope on Skinney atty

,, S R on S R on R on S R on S Answers: The force of friction from the floor on Skinney s feet is Left. According to the free-body diagram above, S =. CTN-17. An Atwood's machine is a pulley with two masses connected by a string as shown. The mass of object A, m A, is twice the mass of object B, m B. The tension T in the string on the left, above mass A, is... A) T = m A g B) T = m B g C) Neither of these. A B Answer: Neither of these. m A g > T > m B g

CTNA-1. An Atwood's machine is a pulley with two masses connected by a string on a massless pulley as shown. The mass of object A, m A, is twice the mass of object B, m B. The tension T in the string on the left, above mass A, is... A B A) T = m A g B) T = m B g C) Neither of these. Answer: neither of these. Mass A is accelerating downward, so the net force on A must be downward, so m A g > T. Similarly mass B is accelerating upward, so it must be that T > m B g. A key idea is that the magnitude of the tension T is the same on both sides (only true if pulley is massless). CTNA-2. A mass m is pulled along a frictionless table by a constant force external force ext at some angle above the horizontal. The magnitudes of the forces on the free-body diagram have not been drawn carefully, but the directions of the forces are correct. ext N ext Which statement below must be true? A) N < mg B) N > mg C) N=mg Answer: N < mg The vertical component of ext is helping to hold up the weight of the mass, so N is smaller than mg. In detail: Since a y = 0, we must have Σ y = 0. Taking up as the +y direction, we have N + ext sinθ mg = 0, N = mg ext sinθ. mg

CTNA-3. A mass m is accelerates downward along a frictionless inclined plane. The magnitudes of the forces on the free-body diagram have not been drawn carefully, but the directions of the forces are correct. N a mg Which statement below must be true? A) N < mg B) N > mg C) N = mg Answer: N < mg A student chooses a tilted coordinate system as shown, and then proceeds to write down Newton's 2 nd Law in the form x = ma x, y = may. What is the correct equation for the y-direction y = may? y N a θ mg θ x A) N mgsinθ= ma B) N mg cos θ= m a C) mgsin θ = m a D) N mg cosθ= 0 E) N+ mg = ma Answer: N mg cosθ= 0

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