The position vector of a particle moving in `x-y` plane is given by
`vec(r) = (A sinomegat)hat(i) + (A cosomegat)hat(j)` then motion of the particle is :

The position of a particle at time moving in x-y plane is given by vec(r) = hat(i) + 2 hat(j) cos omegat . Then, the motikon of the paricle is :

The position of a particle at time moving in x-y plane is given by vec(r) = hat(i) + 2 hat(j) cos omegat . Then, the motikon of the paricle is :

The position vector of a particle moving in x-y plane is given by vec(r)=(t^(2)-4)hat(i)+(t-4)hat(j) . Find (a) Equation of trajectory of the particle (b)Time when it crosses x-axis and y-axis

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

A particle moves in x-y plane according to the equation bar(r ) = (hat(i) + 2 hat(j)) A cos omega t the motion of the particle is

The position vector of a particle is given by vec(r ) = k cos omega hat(i) + k sin omega hat(j) = x hat(i) + yhat(j) , where k and omega are constants and t time. Find the angle between the position vector and the velocity vector. Also determine the trajectory of the particle.

The position vector of a particle vec(R ) as a funtion of time is given by: vec(R )= 4sin(2pit)hat(i)+4cos(2pit)hat(j) Where R is in meters, t is in seconds and hat(i) and hat(j) denote until vectors along x-and y- directions, respectively Which one of the following statements is wrong for the motion of particle ?