A particle moves in `xy` plane accordin to the law `x=a sin w t` and `y=a (1- cos w t )` where `a` and `w` are costant . The particle traces.

A particle moves in xy plane according to the law x = a sin omegat and y = a(1 – cos omega t) where a and omega are constants. The particle traces

A particule moves in x - y plane acording to rule x = a sin omega t and y = a cos omega t . The particle follows

A point moves in the plane xy according to the law x=a sin omegat , y=a(1-cos omega t) , where a and omega are positive constants. Find: (a) the distance s traversed by the point during the time tau , (b) the angle between the point's velocity and acceleration vectors.

A point moves in the plane xy according to the law x = alpha sin omega t, y = alpha(1 - cos omega t) , where alpha and omega are positive constant and t is time. Find the distance traversed by point in time t_(0) .

A point moves in the plane y according to the law x = A sin omegat, y = B cos omegat , where A,B & omega are positive constant. The acceleration of particle is given by [ :' barr is position vector]

A point moves in the plane y according to the law x = A sin omegat, y = B cos omegat , where A,B & omega are positive constant. The equation for trajectroy for path taken by particle is

A point moves in the plane y according to the law x = A sin omegat, y = B cos omegat , where A,B & omega are positive constant. The velocity of particle is given by