In `SHM` there is always a constant ratio between displacement of the body and its

When a mass undergoes simple harmonic motion, there is always a constant ratio between its displacement and

If a particle is executing SHM , with an amplitude A , the distance moved and the displacement of the body during its time period is

A body covered a distance of l metre along a semicircular path. Calculate the magnitude of displacement of the body, and the ratio of distance to displacement.

When the kinetic energy of a body executing SHM is 1/3rd of the potential energy. The displacement of the body is x percent of amplitude, where x is

When the kinetic energy of a body executing S.H.M. is 1/3 of the potential energy, the displacement of the body is x percent of the amplitude, where x is

A body performs a S.H.M. of amplitude a. If the speed of the particle is half of its maximum speed, then the displacement of the particle is

The numerical ratio of displacement to the distance covered is always

Assertion: In S.H.M., the velocity and displacement of the particle are in the same phase. Reason: Velocity is the ratio of displacement to the time taken.