Apaticle of mass `m` moves in the potential energy `U` shown above. Find the period of the motion when the particle has total energy `E`.

A particle of mass m moves in the potential energy U shoen above. The period of the motion when the particle has total energy E is

A particle of mass m moving with kinetic energy K , makes a head - on elastic collision with a stationary particle of mass eta m . The maximum potential energy stored in the system during the collision is

A particle of mass 2 kg moves in simple harmonic motion and its potential energy U varies with position x as shown. The period of oscillation of the particle is

A particle of mass = 2kg moves in simple harmonic motion and its potential energy U varies with position x as shown. The period of oscillation of the particle is (npi)/5 second. Find value of n.

When displacement of a particle executing SHM is half of the amplitude,its potential energy is 5 J. Find the total energy of the particle in SHM,if potential energy at mean position is zero.

When a particle oscillates simple harmonically, its potential energy varies periodically. If the frequency of oscillation of the particle is n, the frequency of potential energy variation is

A particle with total energy E is moving in a potential energy region U(x). Motion of the particle is restricted to the region when