If the displacement of a particle executing SHM, is given by `y=0.30 sin (220t+0.64)` in metre, then the frequency and the maximum velocity of the particle are (t is in seconds)…………….

The velocity of a particle is zero at t=0

The displacement of the particle along a straight line at time t is given by X=a+bt+ct^(2) where a, b, c are constants. The acceleration of the particle is

For particle in SHM, the displacement x of the particle as a function o time t is given as x=A sin (2pi t) . Here x is in cm and t is in second. Let the time taken by the particle to travel from x=0 to x=(A)/(2) be t_(1) and the time taken to travel from x=(A)/(2) to x=A be t_(2) find (t_(1))/(t_(2))

the displacment of a particle long x-axis is given by x=7t^(2)+8t+3 . Its acceleratiton anf velocity at t=2s respectively….

The displacement of a particle is given by x = 6 cos omega t+8 sin omega t metre This equation respresents a S.H.M. having amplitude _______ .

A particle is executing simple harmonic motion given by x=5sin(4t-(pi)/(6)) . The velocity of the particle when its displacement is 3 units is…………….

The displacement of particle moving along x-axis is given by x=6t+12t^(2) , calculate the instantaneous velocity at t=0 and t=2s.

the displacement of particle is given by X= a_(0) + (a_(1)t)/(2)-(a_(2)t^(2))/(3) . What is its acceleration?