Write down the equation giving its position y ( + upward) as a function of time t. Assume the object started by being compressed 17cm from the equilibrium position (where y = 0), and released.
Write down the equation giving its position (upward) as a function of time. Assume the object started by being compressed 17 from the equilibrium position (where = 0), and released.
y (t) = (0.17m) ? cos (2? t0.65s)
y (t) = (0.17m) ? sin (2? t0.65s)
y (t) = (0.17m) ? cos (0.65s? t)
y (t) = (0.17m) ? cos (t0.65s)
Part B
How long will it take to get to the equilibrium position for the first time?
Express your answer to two significant figures and include the appropriate units.
Part C
What will be its maximum speed?
Express your answer to two significant figures and include the appropriate units.
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