A particle performs SHM on a straight line with time period `T` and amplitude`A`. The average speed of the particle between two successive instants, when potential energy and kinetic energy become same is

A particle executing SHM with time period T and amplitude A. The mean velocity of the particle averaged over quarter oscillation, is

A particle executing SHM with time period T and amplitude A. The mean velocity of the particle averaged over quarter oscillation, is

In S.H.M. the displacement of a particle is half of the amplitude, the share of the potential energy and kinetic energy are

Amplitude of SHM particle is 4 cm. At what distance from mean positon will the potential energy and kinetic energy be equal?

A particle performs SHM of time period T , along a straight line. Find the minimum time interval to go from position A to position B . At A both potential energy and kinetic energy are same and at B the speed is half of the maximum speed.

A particle performs SHM of time period T , along a straight line. Find the minimum time interval to go from position A to position B . At A both potential energy and kinetic energy are same and at B the speed is half of the maximum speed.

A particle performs SHM of time period T , along a straight line. Find the minimum time interval to go from position A to position B . At A both potential energy and kinetic energy are same and at B the speed is half of the maximum speed.

The particle performing S.H.M. along a straight line about the mean position with an amplitude 'A'. Then the maximum potential energy at a distance A from the extreme position is

A particle executing SHM with an amplitude A. The displacement of the particle when its potential energy is half of its total energy is

A particle executing SHM with an amplitude A. The displacement of the particle when its potential energy is half of its total energy is