An object of mass `0.2 kg` execurtes Simple harmonic along X-axis with frequncey of `(25)/(pi)Hz.` At the position `x=0.04 m, the object has kinetic energy of oscillation in meter is equal to

An object of mass 0.2 kg executes simple harmonic oscillation along the x - axis with a frequency of (25//pi) Hz . At the position x = 0.04 , the object has Kinetic energy of 0.5 J and potential energy 0.4 J. The amplitude of oscillations is……m.

An object of mass 0.2 kg executes simple harmonic oscillation along the x-axis with a frequency (25)/pi . At the position x = 0.04m, the object has kinetic amplitude of osciallation is (potential energy is zero mean position).

An object of mass 0.2 kg exectes simple harmonic oscillations alongs x- axis with a freqency of (25//pi) Hz . At the positions x = 0.04m , the object has kinetic energy of 0.5 J and potential energy 0.4 J . Find the amplitude of oscillaties

An object of mass 1 kg executes simple harmonic oscillations along the x - axis with a frequency of (2)/(pi)Hz. At the position x = 1 m, the object has a kinetic energy of 24 J and potential energy is 8J. The amplitude of the oscillation is

An object of mass 1kg executes simple harmonic oscillations along the x-axis, with a frequency of (2)/(pi)Hz . At the position x = 1 m, the object has a kinetic energy of 24 J. The amplitude of the oscillation is

An object of mass 0.2 kg executes SHm along the X-axis with frequency of (25//pi) Hz . At the point X=0.4 m the object has KE 0.5 J and PE 0.4 J . The amplitude of oscilation is-

A body of mass 0.2 kg executes a linear SHM along the X-axis. When it is at position x=0.04 m, its P.E. =0.4 J and K.E. -0.5 J. What is the amplitude of oscillation ?

A body of mass 0.1 kg is executing a simple harmonic motion of amplitude 0.2 m. When the body passes through the mean position, its kinetic energy is 8xx10^(-3) J. The initial phase of oscillation is 60. What is the equation of motion of the body ?

an object of mass 0.5 kg is executing simple harmonic motion. It amplitude is 5 cm and time period (T) is 0.2 s. What will be the potential energy of the object at an instant t=(T)/(4)s starting from mean position. Assume that the initial phase of the oscillation is zero.