To determine The magnitude and the direction of the normal force that the car’s seat exert on a passenger at the top of the loop. Explanation At the top of the loop, normal force and the force of gravity acts in downward direction on the passenger. Take the downward direction to be positive y direction. The free-body diagram at the top of the loop is shown in figure 1. Write the equation for the y-component of the net force on the passenger. Σ F y = m a (I) Here, Σ F y is the y-component of the net force on the passenger, m is the mass and a is the acceleration of the car. Write the equation for Σ F → y . Σ F y = n + F g Here, n is the normal force and F g is the force of gravity. Put the above equation in equation (I). n + F g = m a (II) Write the equation for F g . F g = m g Here, g is the acceleration due to gravity. Put the above equation in equation (II). n + m g = m a (III) The acceleration is centripetal acceleration. Write the equation for the acceleration of the car. a = v 2 r Here, v is the speed of the car and r is the radius of the loop-the -loop at the top

4th Edition

ISBN: 9780136780984

Author: Wolfson

Publisher: PEARSON

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Chapter 5, Problem 35E

To determine

The magnitude and the direction of the normal force that the car’s seat exert on a passenger at the top of the loop.

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Chapter 5, Problem 34E

Chapter 5, Problem 36E

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