A particle executes `SHM` with an amplitude of `0,2 m`. Its displacement when its phase is `90^(@)` is

A particle is executing SHM with an amplitude 4 cm. the displacment at which its energy is half kinetic and half potential 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 is executing SHM with an amplitude of 2 m. The difference in the magnitudes of its maximum acceleration and maximum velocity is 4. The time period of its oscillation 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 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 particle executes SHM with an amplitude of 10cm and frequency 2 Hz . At t = 0 , the particle is at a point where potential energy and kinetic energy are same. The equation for its displacement is

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 particle executing SHM has a velocity of 2 ms^(-1) when its displacement from mean position is 1 cm and a velocity of 1 ms^(-1) when its displacement is 2 cm. Its amplitude of oscillationis

A particle executes S.H.M. with a period of 6 second and amplitude of 3 cm . Its maximum speed in cm / sec is

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