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

When a particle executing SHM oscillates with a frequency nu , 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?

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?

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

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

A particle executing SHM starts from one end of its path. If the time period of the particle is T, then what will be the ratio of its kinetic energy and potential energy after a time of T/12 ?