he graph of the velocity of a mass attached to a horizontal spring on a horizontal frictionless surface as a function of time is shown below. The numerical value of V is 5.48 m/s, and the numerical value of t0 is 8.97 s.

Question

he graph of the velocity of a mass attached to a horizontal spring on a horizontal frictionless surface as a function of time is shown below.  The numerical value of V is 5.48 m/s, and the numerical value of t0 is 8.97 s.

a)  What is the amplitude of the motion in m?

b)  What is the acceleration of the oscillator mass at 5.56 s in m/s2?  (Remember:  Arguments to trig functions must be in radians.)

c)  What is the position of the oscillator mass at 6.38 s in m?  (Remember:  Arguments to trig functions must be in radians.)

d)  If the mass attached to the spring is 5.13 kg, what is the spring constant in N/m?

e)  Still assuming the mass is 5.13 kg, What is the potential energy stored in the spring at 5.79 s in Joules?  (Remember:  Arguments to trig functions must be in radians.)

drwls · Answer

Without the figure "shown below" we cannot help you.

Jalopy · Answer

The image is basically showing a sine graph that has t0 and V meeting up at the peak height of a wave (amplitude). The graph moves sinusoidal