2. Suppose we now have a little ball bouncing vertically and lightly on the trampoline. The ball's mass is 0.5kg. Air resistance is unchanged. At time t = 0, the ball again starts at height 0.6 m above the ground and the velocity of the ball is 0. Draw a graph of h(t) in this case and briefly explain your reasoning. Hint: you do not need to solve for y(t).
2. Suppose we now have a little ball bouncing vertically and lightly on the trampoline. The ball's mass is 0.5kg. Air resistance is unchanged. At time t = 0, the ball again starts at height 0.6 m above the ground and the velocity of the ball is 0. Draw a graph of h(t) in this case and briefly explain your reasoning. Hint: you do not need to solve for y(t).
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![2. Suppose we now have a little ball bouncing vertically and lightly on the trampoline. The
ball's mass is 0.5kg. Air resistance is unchanged. At time t = 0, the ball again starts at
height 0.6 m above the ground and the velocity of the ball is 0.
Draw a graph of h(t) in this case and briefly explain your reasoning.
Hint: you do not need to solve for y(t).](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fafdd1b11-86dc-46df-9f91-cc7e20db01fb%2Fe96bb338-f31e-4103-9f81-cab9ecdffb5b%2Fvbe43ad_processed.jpeg&w=3840&q=75)
Transcribed Image Text:2. Suppose we now have a little ball bouncing vertically and lightly on the trampoline. The
ball's mass is 0.5kg. Air resistance is unchanged. At time t = 0, the ball again starts at
height 0.6 m above the ground and the velocity of the ball is 0.
Draw a graph of h(t) in this case and briefly explain your reasoning.
Hint: you do not need to solve for y(t).
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