The manufacturer of a spring states that its force constant is 10.0 N/m. A 0.5-kg ball is attached to this spring and vibrates with SHM. The measured amplitude of the plotted oscillatory wave as a function of time is 10.0 cm. Calculate a) the maximum velocity of the ball, b) the maximum acceleration of the ball, c) the velocity of the ball when it is 5.0 cm from the systems equilibrium position, d) the time required

The manufacturer of a spring states that its force constant is 10.0 N/m. A 0.5-kg ball is attached to this spring and vibrates with SHM. The measured amplitude of the plotted oscillatory wave as a function of time is 10.0 cm. Calculate a) the maximum velocity of the ball, b) the maximum acceleration of the ball, c) the velocity of the ball when it is 5.0 cm from the systems equilibrium position, d) the time required

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Question

Answer questions a,b,c and d

Problem 3
The manufacturer of a spring states that its force constant is 10.0 N/m. A 0.5-kg ball is attached to this
spring and vibrates with SHM. The measured amplitude of the plotted oscillatory wave as a function of
time is 10.0 cm. Calculate a) the maximum velocity of the ball, b) the maximum acceleration of the ball,
c) the velocity of the ball when it is 5.0 cm from the systems equilibrium position, d) the time required
for the ball to move from x = 0 cm to x = 8.0 cm.

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