A particle revolving in a circular path completes first one third of circumference in 2 sec, while next one third in 1 sec. The average angular velocity of particle will be – ("in "rad//sec)

A particle is revolving in a circular path as shownin figure in the horizontal plane such that the angular velocity of the particle about the point O is constant and is equal to 1 rad//s . Distance of the particle from O is given by R=R_(0)-betat where R_(0) and Beta are constant. The speed ofthe particle,as afunction of time is: ltbrlt

A particle completes 1.5 revolutions in a circular path of radius 2 cm. The angular displacement of the particle will be – (in radian)

A particle comes round a circle of radius 1 m once. The time taken by it is 10 sec . The average velocity of motion is

The displacement of a particle moving in a circular path is given by theta = 3 t^(2) + 0.8 , where theta is in radian and t is in seconds . The angular velocity of the particle at t=3 sec . Is

A particle is revolving in a circular path of radius 2 m with constant angular speed 4 rad/s. The angular acceleration of particle is

We draw the reference circle of a particle (M) performing a linear S.H.M. If the period of M is 2 sec, then the angular velocity of the reference particle will be

A particle moves in east direction with 15m/sec for 2 sec then moves in northward with 5 m/s for 8 sec. A average speed of the particle is :-

A particle is revolving in a circular path of radius 25m with constant angular speed 12 rev/min.Then the angular acceleration of the particle is?

A particle is revolving in a circular path of radius 25m with constant angular speed 12 rev/min.Then the angular acceleration of particle is