The amplitude of oscillation of particles in `SHM` is `sqrt(3)cm`. The displacement from mean position at which its potential and kinetic energies are in the ratio `1:2` is

If A is amplitude of a particle in SHM, its displacement from the mean position when its kinetic energy is thrice that to its potential energy

Amplitude of oscillation of a particle that executes SHM is 2cm . Its displacement from its mean position in a time equal to 1//6^(th) of its time period is

A particle is executing SHM of amplitude A. at what displacement from the mean postion is the energy half kinetic and half potential?

The amplitude of a simple pendulum is 10 cm. When the pendulum is at a displacement of 4 cm from the mean position, the ratio of kinetic and potential energies at that point 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 partical executes SHM on a straigh line path. The amplitude of oscillation is 2cm. When the displacement of the particle from the mean position is 1cm, the magnitude of its acceleration is equal to that of its velocity. Find the time period of SHM, also the ms. velocity and ms. acceleration of SHM.

The period of oscillation of a particle in SHM is 4sec and its amplitude of vibration is 4cm . The distance of the particle 0.5s after passsing the mean position is

The amgular velocity and the amplitude of a simple pendulum is omega and a respectively. At a displacement x from the mean position, if its kinetic energy is T and potential energy is U, then the ratio of T to U is