When a particle in linear S.H.M. completes two oscillations, its phase increases by

Define linear S.H.M.

When a particle executing a linear S.H.M. moves from its extreme position to the mean position, its

A particle executing linear S.H.M. performs 30 oscillations per minute. It's velocity when passing through the middle of its path is 0.157 m/s. The length of the path is

If the particle in linear S.H.M. starts from the extreme left position, then its equation of motion is given by

When a dampled harmonic oscillator completes 100 oscillations, its amplitude is reduced to (1)/(3) of its initial value. When will be its amplitude when it completes 200 oscillations?

A particle executing a linear S.H.M. performs 1200 oscillations/minute. The velocity at the midpoint of its path is 3.142 m/s. What is its equation of its displacement, if at time t=0, it is in the extreme right position ?

The total energy of a particle in linear S.H.M. is 20 J. What is its kinetic energy when its displacment is half of the amplitude ?

For a particle performing linear SHM, its average speed over one oscillation is (where, a= amplitude of SHM, n=frequency of oscillation)

The velocity of a particle performing linear S.H.M. at mean position is v0. What will be its velocity at the mean position when its amplitude is doubled and time period reduced to l /3 ?

When a particle performs a linear S.H.M. the ratio of its K.E. at the mean position to its P.E. at a point midway between the mean and extreme position is