A particle performing `SHM` with a frequency of `5Hz` and amplitude `2cm` is initially at position exterme position. The equation for its displacement (in metre) is

The frequency of a particle performing SHM is 12Hz . Its amplitude is 4cm . Its initial displacement is 2cm towards positive exterme positions. Its equation for displacement is

A particle is performing linear S.H.M. with frequency 1 Hz and amplitude 10 cm. Initially, the particle is at a distance +5 cm. Its epoch is

At a particular position the velocity of a particle in SHM with amplitude a is sqrt3 // 2 that at its mean position. In this position, its displacement is :

Two particles P_(1) and P_(2) are performing SHM along the same line about the same meabn position , initial they are at their position exterm position. If the time period of each particle is 12 sec and the difference of their amplitude is 12 cm then find the minimum time after which the seopration between the particle becomes 6 cm

A particle performing SHM with amplitude 10cm . At What distance from mean position the kinetic energy of the particle is thrice of its potential energy ?

The maximum displacement of a particle executing a linear S.H.M. is 5 cm and its periodic time is 2 sec. If it starts from the mean position then the equation of its displacement is given by

A particle excuting S.H.M. of amplitude 4 cm and T = 4 sec .The time take by it to move position extreme position to half the amplitude is

A particle perform SHM with period T and amplitude A. the mean velocity of the particle averaged over quarter oscillation, Starting from right exterme position is

A particle executing SHM has a frequency of 10 Hz when it crosses its equilibrium position with a velocity of 2pi m//s . Then the amplitude of vibration is

A particle performing SHM having amplitude 'a' possesses velocity ((3)^(1//2))/(2) times the velocity at the mean position. The displacement of the particle shall be