A body is performing SHM At a displacement `X_1`, its potential energy is `4` J and at a displacement `X_2`, its potential energy is `9` J. The potential energy at a displacement `(X_1 + X_2)` is

A body is executing simple harmonic motion. At a displacement x, its potential energy is E_1 and a displacement y, its potential energy is E_2 . The potential energy E at a displacement (x+y) is

A body executes simple harmonic motion. At a displacement x, its potential energy is U_1 . At a displacement y, its potential energy is U_2 . What is the potential energy of the body at a displacement (x + y)?

A body is executing simple harmonic motion. At a displacement x (from its mean position) its potential energy is E_(1) and at a displacement y its potential energy is E_(2) . The potential energy is E at displacement (x+y) . Then:

At what displacement the kinetic is equal to the potential energy ?

A long spring is stretched by 3 cm and its potential energy is V . If the spring is stretched by 6 cm ,its potential energy will be

In simple harmonic motion of a particle, maximum kinetic energy is 40 J and maximum potential energy is 60 J. then

A particle executing SHM with an amplitude A. The displacement of the particle when its potential energy is half of its total energy is

In SHM with amplitude a, the potential energy and kinetic energy are equal to each other as displacement

A long spring is stretched by 2 cm and the potential energy is V. IF the spring is stretched by 19 cm, its potential energy will be

Calculate the ratio of displacement to amplitude when kinetic energy of a body is thrice its potential energy.