A body is executing a simple harmonic motion such that its potential energy is `U_(1) `at `U_(2)at y` When the displacement is `x+y` the potential energy will be

A body is executing simple harmonic motion As x displacement x its potential energy is E_(1) and at a displacement y its potential energy is E_(2) The potential energy E at displacement (x+y) is

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

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:

A body is executing siniple Harmonic Motion . At displament its potenial energy is E_(1) and at a displacement y its potenial energy is E_(2) . The potenial energy E at displament (x+) is

A body is executing simple harmonic motion with frequency 'n' the frequency of its potential energy is