A body is executing `SHM` under action of the a force of whose maximum is `50 N`. magnitude of force acting on the particle at the time when its energy is half kineic energy and half potential is (Assume potential energy to be zero at mean position).

A body is executing SHM under the action of force whose maximum magnitude is 50N. Find the magnitude of force acting on the particle at the time when its energy is half kinetic and half potential.

A body is executing SHM under the action of force whose maximum magnitude is 5sqrt(2)N . The magnitude of force acting on the particle at the instant when its kintentic energy and potential are euqal is 10x . Find x . (Assume potenital energy to be zero at mean position)

At x = (A)/(4) , what fraction of the mechanical energy is potential ? What fraction is kinetic ? Assume potential energy to be zero at mean position.

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

A perticle is vibrating simple harmonically with amplitude 'a' . The displacement of the particle when its energy is half kinetic and half potential is.

Which of the following is greater in SHM (assuming potential energy = 0 at mean position )?

A particle is executing SHM with amplitude A. At displacement x=(-A/4) , force acting on the particle is F, potential energy of the particle is U, velocity of particle is v and kinetic energy is K. Assuming potential energyh to be zero at mean position. At displacement x=A/2

The potential energy of a particle performing S.H.M. at mean position is

The potential energy of a particle performing S.H.M. at mean position is

Ratio of kinetic energy at mean position to potential energy at A/2 of a particle performing SHM