3. A mass on a spring is at rest on a frictionless surface with an amplitude of 12 cm and a frequency of 4.0 Hz. Determine: a) period T= b) angular velocity, w c) Write the equation for x(t): x(t) = 12 am d) Calculate the position of the mass at 2.6 seconds. e) Graph the motion. (cm) 4. A swinging pendulum moving in SHM completes two cycles every 5.0 s. It moves a total distance of 24 cm during one complete cycle. Determine: a) the amplitude (be careful): b) the angular velocity, o = c) the equation for x(t): x(t) = %3D d) Graph the motion. (cm)

Position vs time for a simple harmonic oscillator help! Thank you!

Transcribed Image Text:

9-8 3. A mass on a spring is at rest on a frictionless surface with an amplitude of 12 cm and a frequency of 4.0 Hz. Determine: a) period T = b) angular velocity, w = 12 cm c) Write the equation for x(t): x(t) = Theeeer d) Calculate the position of the mass at 2.6 seconds. e) Graph the motion. (cm) 4. A swinging pendulum moving in SHM completes two cycles every 5.0 s. It moves a total distance of 24 cm during one complete cycle. Determine: a) the amplitude (be careful): b) the angular velocity, w =. c) the equation for x(t): x(t) = d) Graph the motion. (cm)