The displacement (in cm) of a moving particle at any time t is given by the equation of the form `y = 3 cos omega t + 4 sin omega t` where `omega = 2s^-1`.
It represents

x = A cos omega t + B sin omega t , the amplitude of this wire is:

The equation y = a (sin kx cos wt- cos kx sin omega t) represent.

The displacement (in meter)of a particle, moving along x-axis is given by x=18t + 5t^2 . Calculate instantaneous velocity at t = 2s

the area of the triangle formed by 1, omega, omega^2 where omega be the cube root of unity is

The equation x= A sin omega t gives the relation between the time t and the corresponding displacement x of a moving particle where A and omega are constant. Prove that the acceleration of the particle is proportional to its displacement and is directed opposite to it.

The displacement of a particle in S.H.M. varies according to the relation x= 4 (cos pi t +sin pi t ) . The amplitude of the particle is

y = A sin(omega t- kx) Cm this equation find out the dimension of omega ?

Find the derivatives w.r.t. x : x = a cos theta, y = b sin theta