The Shortest distance travelled by a particle executing SHM from mean position in 2 s is equal to `sqrt(3)//2` times its amplitude . Determine its time period.

The shortest distance travelled by a particle executing S.H.M. from mean position in 4 seconds is eual to (1)/(sqrt(2)) times its amplitude. Find the time period. Hint : t=4 s , x = (1)/(sqrt(2)) , T=? x = A sin omega t , omega = ( 2pi)/( T ) Solve to get T.

A particle executes SHM from extreme position and covers a distance equal to half to its amplitude in 1 s. find out it's Time Period.

The potential energy of a particle executing SHM change from maximum to minimum in 5 s . Then the time period of SHM is:

The time period of a particle executing S.H.M.is 12 s. The shortest distance travelledby it from mean position in 2 second is ( amplitude is a )

A particle executing SHM with time period of 2 s : Find the time taken by it to move from one amplitude to half the amplitude position.

The particle is executing SHM on a line 4 cm long. If its velocity at mean position is 12 m/s , then determine its frequency.

A particle executes linear simple harmonic motion with an amplitude of 3 cm . When the particle is at 2 cm from the mean position, the magnitude of its velocity is equal to that of its acceleration. Then, its time period in seconds is

A particle executes linear simple harmonic motion with an amplitude of 2 cm . When the particle is at 1 cm from the mean position the magnitude of its velocity is equal to that of its acceleration. Then its time period in seconds is

A particle executes linear simple harmonic motion with an amplitude of 2 cm . When the particle is at 1 cm from the mean position the magnitude of its velocity is equal to that of its acceleration. Then its time period in seconds is

The kinetic energy of a particle, executing S.H.M. is 16 J when it is in its mean position. IF the amplitude of oscillation is 25 cm and the mass of the particle is 5.12 Kg, the time period of its oscillations is