When a particle executing SHM oscillates with a frequency `nu`, then the kinetic energy of the particle

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

What should be the displacement of a particle, executing SHM, from its position of equilibrium so that the kinetic energy of the particle is half of its maximum kinetic energy?

A particle of mass m executes SHM with amplitude a and frequency n. What is the average kinetic energy of the particle during its motion from the position of equilibrium to the end?

A particle is executing SHM with frequency a. The frequency of the variation of its kinetic energy is

If the mass of a particle executing SHM is m and its angular frequency is omega , then time period of its oscillation will be

When a particle executing SHM is at a distance of 0.02 m from its mean position, then its kinetic energy is thrice its potential energy. Calculate the amplitude of motion of the particle.

If the mass of a particle executing SHM is m and its angular frequency is omega , then the force constant of that SHM will be

What should be the displacement of a particle, executing SHM, from its position of equilibrium so that the velocity of the particle is half of its maximum velocity?