A samll mass executes linear `SHM` about `O` with amplitude a and period `T`. Its displacement from `O` at time `T//8` after passing through `O` is:

A particle is executing simple harmonic motion with an amplitude A and time period T. The displacement of the particles after 2T period from its initial position is

A particle executes SHM with amplitude A and time period T. When the displacement from the equilibrium position is half the amplitude , what fractions of the total energy and kinetic and potential?

A particle executes a linear S.H.M. of amplitude A and period T. It starts from the mean position. The time required to cover a dis"tan"ce A/2 is

A particle executes a linear S.H.M. of amplitude 8 cm and period 2s. The magnitude of its maximum velocity is

A particle executes S.H.M. with amplitude 'a' and time period T. The displacement of the particle when its speed is half of maximum speed is (sqrt(x)a)/(2) . The value of x is ………… .

A body is executing SHM with amplitude a and time period T. The ratio of kinetic and potential energy when displacement from the equilibrium position is half the amplitude

If a particle is executing SHM , with an amplitude A , the distance moved and the displacement of the body during its time period is

A block of mass M executes SHM with amplitude a and time period T. When it passes through the mean position, a lump of putty of mass m is dropped on it. Find the new amplitude and time period.