3.0 m A basketball is thrown in a free throw. If the ball leaves the player's hands at a speed of 4.8 mm/s from a height of d = 2.4 from the ground, what will be the ball's speed when i reaches the ring that is at 3.0 m height from the ground? Hint: Use the conservation of total mechanical energy. You can see how easy it is to solve this problem using energy methods; you don't need to know the angle or other information. K1+U1= K2 + U2 Round off to one decimal place v2 =

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3.0 m
A basketball is thrown in a free throw. If the ball leaves the player's hands at a speed of 4.8 m/s from a height of d = 2.4 from the ground, what will be the ball's speed when it
reaches the ring that is at 3.0 m height from the ground?
Hint: Use the conservation of total mechanical energy. You can see how easy it is to solve this problem using energy methods; you don't need to know the angle or other
information.
K1 + U1= K2 + U2
Round off to one decimal place
v2 =
4
Transcribed Image Text:3.0 m A basketball is thrown in a free throw. If the ball leaves the player's hands at a speed of 4.8 m/s from a height of d = 2.4 from the ground, what will be the ball's speed when it reaches the ring that is at 3.0 m height from the ground? Hint: Use the conservation of total mechanical energy. You can see how easy it is to solve this problem using energy methods; you don't need to know the angle or other information. K1 + U1= K2 + U2 Round off to one decimal place v2 = 4
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