Position vectors of a particle moving in xy plane at time t is `vecr=a(1-cos ometat)hati+asin omegat hatj`. The path of the particle is

Position vector of a particle moving in x-y plane at time t is r=a(1- cos omega t)hat(i)+a sin omega t hat(j) . The path of the particle is

Position vector of a particle moving in x-y plane at time t is r=a(1- cos omega t)hat(i)+a sin omega t hat(j) . The path of the particle is

The position vector of a particle moving in a plane is given by r =a cos omega t hati + b sin omega I hatj, where hati and hatj are the unit vectors along the rectangular axes C and Y : a,b, and omega are constants and t is time. The acceleration of the particle is directed along the vector

The positoin vector of a particle is vecr=(acos omegat)hati+(asinomegat)hatj . The velocity of the paritcle is

The position vector of a particle is vecr = (a cos omega t)hati + (a sin omegat)hatj . the velocity of the particle is

If s=a sinomegat hati+b cos omegat hatj , the equation of path of particle is

The position of a particle moving in x-y plane changes with time t given by vecx= 3t^2hati + 9thatj . The acceleration of particle would be

The displacement of a particle is given by r = A (cos omegat hati + sin omegat hatj ) . The motion of the particle