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A volleyball starts from rest and accelerates with an acceleration of 0.415 m/s2 while moving down a 9.00 m long inclined plane. When it reaches the bottom, the ball rolls up another plane, where, after
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A volleyball starts from rest and accelerates with an acceleration of 0.415 m/s2 while moving down a 9.00 m long inclined plane. When it reaches the bottom, the ball rolls up another plane, where, after moving 14.50 m, it comes to rest.

a) What is the speed of the ball at the bottom of the first plane?

m/s

b) How long does it take to roll down the first plane?

s

c) What is the acceleration along the second plane?

m/s2

d) What is the ball's speed 8.25 m along the second plane?

m/s

User Mutahhir
by
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1 Answer

2 votes

Answer:

a) v = 2.733 m/s

b) t = 6.58s

c) a = -0.415 m/s^2

d) v = 0.789 m/s

Step-by-step explanation:

We can see it in the pics

A volleyball starts from rest and accelerates with an acceleration of 0.415 m/s2 while-example-1
A volleyball starts from rest and accelerates with an acceleration of 0.415 m/s2 while-example-2
User Jayron
by
6.0k points
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