A 20g partical is oscillating simple bar...

A `20g` partical is oscillating simple barmonically with a period of `2 second` and maximum kinetic energy `2 J`. The total machanical energy of the partical is zero , find
a Amplitude of oscillation
b. potential energy as a punction of displacement x relative to mean position.

Similar Questions

Explore conceptually related problems

A 20g particle is oscillating simple harmonically with a period of 2 sec and maximum kinetic energy 2 J . The total mechanical energy of the particle is zero , find a Amplitude of oscillation b. potential energy as a function of displacement x relative to mean position.

In SHM, kinetic energy is (1//4)^(th) of the total energy at a displacement equal to (Here A is the amplitude of oscillations.)

The total energy of a harmonic oscillator of mass 2 kg is 9 J. If its potential energy at mean position is 5 J , its KE at the mean position will be

Ratio of kinetic energy to potential energy of an oscillator when it is at distance 1//N times of amplitude from mean positions in

In a simple harmonic oscillation, what fraction of total mechanical energy is in the form of kinetic energy, when the particle is midway between mean and extreme position.

A loaded vertical spring executes simple harmonic oscillations with period of 4 s. The difference between the kinetic energy and potential energy of this system oscillates with a period of

A `20g` partical is oscillating simple barmonically with a period of `2 second` and maximum kinetic energy `2 J`. The total machanical energy of the partical is zero , find a Amplitude of oscillation b. potential energy as a punction of displacement x relative to mean position.

Similar Questions

Recommended Questions

A `20g` partical is oscillating simple barmonically with a period of `2 second` and maximum kinetic energy `2 J`. The total machanical energy of the partical is zero , find
a Amplitude of oscillation
b. potential energy as a punction of displacement x relative to mean position.