AP Mechanics Free Response Problem

AI Thread Summary
The discussion focuses on a physics problem involving a ball thrown vertically upward, experiencing gravitational and air resistance forces. It is established that the acceleration of the ball decreases as it ascends due to the increasing drag force, which is dependent on velocity. A force diagram is suggested to clarify the forces acting on the ball, emphasizing that the net force and acceleration are not constant. The participants agree on the need to express the instantaneous speed as a differential equation without solving it. The conversation highlights the importance of understanding the relationship between forces and acceleration in non-constant scenarios.
harmonicmotion
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Homework Statement


A ball of mass M is thrown vertically upward with an initial speed Vo. It experiences a force of air resistance given by F=-kv, where k is a positive constant. The positive direction for all vector quantities is upward. Express all algebraic answers in terms of M, k, and Vo, and fundamental constants.
a.) Does the magnitude of the acceleration of the ball increase, decrease, or remain the same
b.) Write, but do not solve, a differential equation for the instantaneous speed v of the ball in terms of time t as the ball moves upward
c.) Determine the terminal speed of the ball as it moves downward
d.) Does it take longer for the ball to rise to its maximum height or fall from its maximum height back to the height from which it was thrown?



Homework Equations





The Attempt at a Solution

 
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I believe for part a.) that the acceleration decreases as the force of gravity acts on the ball
 
can someone help?
 
harmonicmotion said:
I believe for part a.) that the acceleration decreases as the force of gravity acts on the ball

When problems like this get confusing I always go back to the basics. Draw a force diagram of the ball ascending. You have 2 forces, a gravitational force and a drag force:

\sum F = -F_g - F_f = -mg -kv

There is a caveat, however. The "famous 4" are only used when there is a constant acceleration, however, this net force is not constant but a function of v.

Your answer for part a looks right to me, the sum of forces and thus the acceleration decreases as the ball ascends not because of a change in the gravitational force which is constant (both m and g are invariant) but because of a change of the drag force (which varies as v).

Hope this starts you off.
 
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