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)

Time taken by the particle to reach from A to B is t . Then the distance AB is equal to

A particle performing SHM is found at its equilibrium position at t = 1s and it is found to have a speed 0.25 m//s at t=2s. If the period of oscillation is 6. Calculate amplitude of oscillation.

The time period of a particle executing SHM is T . After a time T//6 after it passes its mean position, then at t = 0 its :

What is the maximum speed of a particle executing SHM with amplitude of 3 cm and periodic time 6s ?

a particle moving along a straight line with uniform acceleration has velocities 7 m//s at A and 17 m//s at C. B is the mid point of AC. Then :-

The maximum velocity of a particle executing simple harmonic motion with an amplitude 7 mm is 4.4 m/s. The period of oscillation is.

Acceleration of a particle a= -bx , where x is the displacement of particle from mean position and b is constant. What is the periodic time of oscillation ?

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

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.

A and B are two points on the path of a particle executing SHM in a straight line, at which its velocity is zero. Starting from a certain point X (AXltBX) the particle crosses this pint again at successive intervals of 2 seconds and 4 seconds with a speed of 5m//s Q. Amplitude of oscillation is