If the KE of a particle performing a SHM of amplitude A is `(3)/(4)` of its total energy, then the value of its displacement is

A particle is performing linear S.H.M of amplitude a. What fraction of the total energy is kinetic, given the displacement is half the amplitude

At what distance, is the KE of a particle, performing S.H.M of amplitude 10 cms is three times its PE

A particleis performinglinearS.H.Mof amplitude a. What fraction of the total energy is kinetic, if the displacement is half of the amplitude?

A simple harmonic oscillator has amplitude 'A'. If the kinetic energy of oscillator is one-fourth of the total energy, then the displacement is

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

The total energy of a particle executing S.H.M. is 80 J . What is the potential energy when the particle is at a distance of 3/4 of amplitude from the mean position

A particle starts simple harmonic motion from the mean position. Its amplitude is a and total energy E . At one instant its kinetic energy is 3E/4 . Its displacement at that instant is

A particle performs SHM of amplitude 10 cm. Its maximum velocity during oscillation is 100 cm/s. What is its displacement, when the velocity is 60 cm/s.

The speeds of a particle performing linear S.H.M are 8 cm/s and 6 cm/s at a respective displacements of 6 cm and 8 cm. Find its period and amplitude.

The velocity of a particle performing linear S.H.M. at mean position is v0. What will be its velocity at the mean position when its amplitude is doubled and time period reduced to l /3 ?