A particle is in SHM along a straing line. The ratio of its KE to PE at a displacement `(1/N)^(th)` of its amplitude from mean position is ........

A particle executes SHM on a straight line path. The amplitude of oscillation is 2cm . When the displacement of the particle from the mean position is 1cm , the numerical value of magnitude of acceleration is equal to the mumerical value of velocity. Find the frequency of SHM (in Hz ).

The displacement of a particle of mass 3g executing simple harmonic motion is given by x =3sin(0.2t) in SI units. The kinetic energy of the particle at a point which is at a displacement equal to 1/3 of its amplitude from its mean position is

A particle is executing SHM along a straight line. Its velocities at distances x_(1) and x_(2) from the mean position are v_(1) and v_(2) , respectively. Its time period is

A particle is executing SHM along a straight line. Its velocities at distances x_(1) and x_(2) from the mean position are v_(1) and v_(2) , respectively. Its time period is

A particle performs SHM of amplitude A along a straight line .When it is at a distance of sqrt(3)/(2) A from mean position its kinetic energy gets increased by an amount of (1)/(2) m omega^(2)A^(2) due to an impulsive force. Then its new amplitude becomes

A particle is executing shm. What fraction of its energy is kinetic when the displacement is half the amplitude ?

A particle executes SHM along a straight line so that its period is 12 s. The time it takes in traversing a distance equal to half its amplitude from its equilibrium position is

A particle executes SHM along a straight line so that its period is 12 s. The time it takes in traversing a distance equal to half its amplitude from its equilibrium position is

A particle of mass m performs SHM along a straight line with frequency f and amplitude A:-

The total energy of a particle in SHM is E. Its kinetic energy at half the amplitude from mean position will be