A particle of mass `m` executes `SHM` with amplitude 'a' and frequency 'v'. The average kinetic energy during motion from the position of equilibrium to the end is:

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

A particle of mass m executing SHM with amplitude A and angular frequency omega . The average value of the kinetic energy and potential energy over a period is

When a particle executes SHM oscillates with a frequency v, then the kinetic energy of the particle

A body is executing SHM with amplitude A and time period T . The ratio of kinetic and potential energy when displacement from the equilibrium position is half the amplitude

A particle executing S.H.M. having amplitude 0.01 m and frequency 60 Hz. Determine maximum acceleration of particle.

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 are kinetic and potential energy?

particle is executing SHM of amplitude A and angular frequency omega.The average acceleration of particle for half the time period is : (Starting from mean position)

A particle executes SHM with time period T and amplitude A . The maximum possible average velocity in time T//4 is-

A particle of mass m performs SHM along a straight line with frequency f and amplitude A:-

A particle is executing SHM with an amplitude 4 cm. the displacment at which its energy is half kinetic and half potential is