The time taken by a particle performing `SHM` on a straight line to pass from point `A` to `B` where its velocities are same is `2` seconds .After another `2` seconds it return to `B` The time period of oscillation is (in seconds)

The time taken by a particle performing SHM on a straight line to pass from point A to B where its velocities are same is 2 seconds . After another 2 second it returns to B .The time peroid of oscillation is (in seconds):

The time taken by a particle performing SHM to pass from point A and B where it is velocities are same is 2s. After another 2 s it returns to B. The time period oscillation is (in seconds)

The time taken by a particle performing SHM to pass from point A and B where it is velocities are same is 2:3 . After another 2 s it returns to B. The time period oscillation is (in seconds)

The time taken by a particle performing SHM to pass from point A and B where it is velocities are same that is 2 m/s . After another 2 s it returns to B. The time period oscillation is (in seconds)

The time taken by a particle performing SHM to pass from point A to B where its velocities are same is 2 s . After another 2 s it returns to B . The ratio of distance OB to its a amplitude (where O is the mean position) is

The time taken by a particle performing SHM to pass from point A to B where its velocities are same is 2 s . After another 2 s it returns to B . The ratio of distance OB to its a amplitude (where O is the mean position) is

Assertion : A particle performing SHM at certain instant is having velocity v. It again acquire a velocity v for the first time after a time interval of T second. Then the time period of oscillation is T second. Reason : A particle performing SHM can have same velocity at two instants in one cycle.

The displacement of a particle performing a S.H.M. is given by x=0.5 "sin" 100 pi (t + 0.05) , where x is in metres and t is in second. Its periodic time in second is