The time period of oscillation of a SHO ...

The time period of oscillation of a `SHO` is `(pi)/(2)s`. Its acceleration at a phase angle `(pi)/(3) rad` from exterme position is `2ms^(-1)`. What is its velocity at a displacement equal to half of its amplitude form mean position? (in `ms^(-1)`

Similar Questions

Explore conceptually related problems

The time period of oscillation of a particle that executes SHM is 1.2s . The time starting from mean position at which its velocity will be half of its velocity at mean position is

The velocity of a particle under going SHM at the mean position is 2ms^(-1) . Find the velocity of the particle at the point where the displacement from the mean position is equal to half the amplitude.

This time period of a particle undergoing SHM is 16 s. It starts motion from the mean position. After 2 s, its velocity is 0.4 ms^(-1) . The amplitude is

A particle execute S.H.M from the mean position. Its amplitude is A, its time period is .T.. At what displacement, its speed is half of its maximum speed.

The time period of oscillation of a `SHO` is `(pi)/(2)s`. Its acceleration at a phase angle `(pi)/(3) rad` from exterme position is `2ms^(-1)`. What is its velocity at a displacement equal to half of its amplitude form mean position? (in `ms^(-1)`

Similar Questions

Recommended Questions