A particle is executing SHM of amplitude A, about the mean position X = 0. Which of the following cannot be a possible phase difference between the positions of the particle at x = + A/2 and x = A/`sqrt(2)`

Acceleration of a particle, executing SHM, at it’s mean position is

A particle executes SHM of amplitude A. At what distance from the mean position is its KE equal to its PE ?

The particles of a medium vibrate about their mean positions whenever a wave travels through that medium. The phase difference between the vibrations of two such particles

The particles of medium vibrate about their-mean positions whenever a wave travels through that medium. The phase difference between the vibrations of two such particles

A particle of mass m is executing SHM about its mean position. The total energy of the particle at given instant is

A particle is executing SHM of amplitude 10 cm. Its time period of oscillation is pi seconds. The velocity of the particle when it is 2 cm from extreme position is

A particle of mass m executing S.H.M. about its mean position. The total energy of the particle at given instant is

A particle executing SHM of amplitude 4 cm and T=4 s .The time taken by it to move from position to half the amplitude is

Two particles execute SHM of same amplitude and same time period, about same mean position but with a phase difference between them. At an instant they are found to cross each other at x=+(A)/(3) . The phase difference between them is

Two particles executing SHM of same frequency meet at x=+(sqrt(3)A)/(2) , while moving in opposite directions. Phase difference between the particles is :-