The time period of oscillation of a SHM ...

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

Similar Questions

Explore conceptually related problems

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)

A particle performs simple hormonic motion with a period of 2 seconds. The time taken by it to cover a displacement equal to half of its amplitude from the mea n position is

A particle executes SHM from extreme position and covers a distance equal to half to its amplitude in 1 s.

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

A particle executes SHM along a straight line so that its period is 12 s. The time it takes in traversing a distance equal to half its amplitude from its equilibrium position is

The periodic time of a body executing SHM is 2s. After how much time interval from t=0, will its displacement be half of its amplitude?

The maximum displacement of a bob from its mean position is called its 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

In a SHM with time period 2s. Time taken for displacement x to reach A/2 from mean position is 1/a find a ?

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

Similar Questions

Recommended Questions