The motion of a particle is given by
`y = a sin omega t + b sin omega t`
The motion of the particle is

The motion of a particle is given by x = A sin omega t + B os omega t . The motion of the particle is

The motion of a particle is given x = A sin omega t + B cos omega t The motion of the particle is

The motion of a particle is given by x=A sin omegat+Bcos omegat . The motion of the particle is

The position vector of a particle is vec( r) = a cos omega t i + a sin omega t j , the velocity of the particle is

The position of a particle in motion is given by y = Csinomegat + Dcosomegat w.r.t origin. Then motion of the particle is

The position of a particle in motion is given by y = Csinomegat + Dcosomegat w.r.t origin. Then motion of the particle is

The position vector of a particle is r = a sin omega t hati +a cos omega t hatj The velocity of the particle is

A x and y co-ordinates of a particle are x=A sin (omega t) and y = A sin(omegat + pi//2) . Then, the motion of the particle is

The displacement of a particle along the x- axis it given by x = a sin^(2) omega t The motion of the particle corresponds to

A particle is subjected to two mutually perendicular simple harmonic motion such that its x and y coordinates are given by : x = 2 sin omega " "& " "y = 2 sin (omega t + (pi)/(2)) The path of the particle will be