The equation of a S.H.M. of amplitude 'A' and angular frequency `omega` in which all distances are measured from one extreme positionand time is taken to be zero, at the other extreme position is

Write the equation for a particle in simple harmonic motion with amplitude a and angular frequency epsilon considering all distance from one extreme position and time when its is at the other extreme position.

A particle executing S.H.M. starts from the mean position. Its phase, when it reaches the extreme position, is

A partical excutes SHM with amplitude A and angular frequency omega . At an instant the partical is at a distance A//5 from the mean position and is moving away from it. Find the time after which it will come back t this position again and also find the time after which it will pass through the mean position.

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

particle is executing SHM of amplitude A and angular frequency omega.The average acceleration of particle for half the time period is : (Starting from mean position)

The potential energy of a particle performing S.H.M. at extreme position is

The average velocity of a particle executing SHM with an amplitude A and angular frequency omega during one oscillation is

The equation of S.H.M of a particle whose amplitude is 2 m and frequency 50 Hz. Start from extreme position is

The avergae kinetic energy of particle of mass m undergoing S.H.M. with angular frequency omega and amplitude A, over half of one time period is

Maximum velocity of a particle in SHM is 10 cm // s . What is the average velocity during motion from one extreme position to other extreme position ?