There is a body having mass `m` and performinf `SHM` amplitude a There is a restroring force `F = - Ks` where `x` is the displacement The total energy of body depends upon

The kinetic energy of a rotating body depends upon

The amount of energy radiated by a body depends upon

A body of mass 8 kg performs S.H.M. of amplitude 60 cm. The restoring force is 120 N, when the displacement is 60 cm. The time period is

The binding energy of a body does not depend upon

M.I. of a body doesn't depend upon

In SHM restoring force is F = -kx , where k is force constant, x is displacement and a is amplitude of motion, then total energy depends upon

A body of mass 8 kg performs SHM of amplitude 60 cm. The restoring force is 120N when the displacement is 60 cm. Its acceleration , PE and KE when displacement is 6 cm are

Show that the total energy of a body executing S.H.M. is constant.

An object of mass m is attached to a spring. The restroing force of the spring is F - lambdax^(3) , where x is the displacement. The oscillation period depends on the mass, l mabd and oscillation amplitude. Suppose the object is initially at rest. If the initial displacement is D then its period is tau . If the initial displacement is 2D , find the period.