A particle of mass `0.1kg` executes `SHM` under a force `F =- 10x (N)`. Speed of particle at mean position is `6 m//s`. Find its amplitude of oscillation.

A particle of mass 0.2 kg executes SHM under a force of F = - 20x N. If speed of particle at mean position is 12 m/s then the amplitude of oscillations is

The frequency of oscilation is ((10)/(pi)) (in Hz) of a particle of mass 0.1 kg which executes SHM is 0.2J at position x = 0.02m . The potential energy is zero at mean position Find the amplitude of osclllation (in meter) :

A particle of mass 0.5 kg executes SHM. If its period of oscillation is pi seconds and total energy is 0.04 J, then the amplitude of oscillation will be

A particle of mass 0.50 kg executes a simple harmonic motion under a force F = – (50 N/m)x. If it crosses the centre of oscillation with a speed of 10 m/s, find the amplitude of the motion.

A particle of mass 0.10 kg executes SHM with an amplitude 0.05 m and frequency 20 vib/s. Its energy os oscillation is

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

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

A particle of mass 0.50 kg executes a simple harmonic motion under a force F=-(50Nm^-1)x . If it crosses the centre of oscillation with a speed of 10ms^-1 , find the amplitude of the motion.

A point particle of mass 0.1kg is executing SHM of amplitude 0.1m . When the particle passes through the mean position, its kinetic energy is 8xx10^-3J . Obtain the equation of motion of this particle if the initial phase of oscillation is 45^@ .