A 0.200-kg object attached to a spring oscillates on a frictionless horizontal table with a frequency of 3.00 Hz and an amplitude 20.0 cm. What is the maximum potential energy Umaxof the system? Umax= J What is the displacement x of the object when the potential energy is one-half of the maximum? x = What is the potential energy U when the displacement of the object is 2.00 cm. U = J

A and B were a part of a potential energy topic: I kept getting a wrong answer. I would like some guidance on them.

a. The potential energy of an object attached to a spring is 2.60 J at a location where the kinetic energy is 1.70 J.

If the amplitude ? of the simple harmonic motion is 20.0 cm, calculate the spring constant ? (N/m) and the magnitude of the largest force ?spring,max (N)  that the object experiences

 

b.

A 0.200-kg object attached to a spring oscillates on a frictionless horizontal table with a frequency of 3.00 Hz and an amplitude of 20.0 cm.

What is the maximum potential energy ?max of the system?

?max=_J

What is the displacement ? of the object when the potential energy is one‑half of the maximum?

?= _m

What is the potential energy ? when the displacement of the object is 2.00 cm.

Transcribed Image Text:

A 0.200-kg object attached to a spring oscillates on a frictionless horizontal table with a frequency of 3.00 Hz and an amplitude ( 20.0 cm. What is the maximum potential energy Umaxof the system? Umax= J What is the displacement x of the object when the potential energy is one-half of the maximum? X = m What is the potential energy U when the displacement of the object is 2.00 cm. U =

Transcribed Image Text:

The potential energy of an object attached to a spring is 2.60 J at a location where the kinetic energy is 1.70 J. If the amplitude A of the simple harmonic motion is 20.0 cm, calculate the spring constant k and the magnitude of the largest force Fspring,mthat the object experiences. k = N/m Fspring,max N