Explanation At the highest point in the parabolic track, the kinetic energy of the particle is zero whereas at the lowest point, the kinetic energy is maximum. While sliding down, the speed of the particle increases and while sliding up, it decreases. In case of potential energy it is zero at the lowest point and it is maximum at the highest point. Since there is no frictional loss, energy is a constant of motion Write the expression equating energy at the highest and the lowest points U h + K h = U 0 + K 0 (I) Here, U h , U 0 are the potential energy at highest and lowest points respectively whereas K h , K 0 are the potential energy at highest and lowest points respectively. Write the expression for kinetic energy at the lowest point K 0 = 1 2 m v 2 (II) Here, m is the mass of the particle and v is the maximum speed. Write the expression for potential energy at the highest point U h = m g h (III) Here, g is the gravitational acceleration and h is the highest point. Write the expression for height of the parabolic path h = a x 2 (IV) Here a is a constant and x is the x-coordinate. Conclusion: Substitute 0 for U 0 , 0 for K h , 1 2 m v 2 for K 0 , m g h for U h and a x 2 for h in equation (I)

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Chapter 7, Problem 60P

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The turning points of the parabolic track.

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I. Pushing on a File Cabinet Bob has been asked to push a heavy file cabinet down the hall to another office. It's not on rollers, so there is a lot of friction. At time t = 0 seconds, he starts pushing it from rest with increasing force until it starts to move at t = 2 seconds. He pushes the file cabinet down the hall with varying amounts of force. The velocity versus time graph of the cabinet is shown below. A. On the graphs provided below, 1. draw the net force vs. time that would produce this velocity graph; 2. draw the friction force vs. time for this motion; 3. draw the applied force (Fon Cabinet by Bob) VS. time for this motion (the first two seconds of this graph have been drawn for you). Velocity (m/s) Applied Force (N) Friction Force (N) Net Force (N) A -m B -U time (s) D time (s) time (s) time (s)

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