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 moves on a circular path of radius 'r'. It completes one revolution in 40s. Calculate distances displacement in 2 min 20 s.

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 of mass 2 kg moves on a circular path with constant speed 10 m // s . Find change in speed and magnitude of change in velocity. Whan particle completes half revolution.

A particla starting from rest undergoes acceleration given by a=|t-2|" m/s"^(2) where t is time in sec. Find velocity of particle after 4 sec. is :-

A particle starts moving in a non-uniform circular motion, lies angular acceleration as shown in figure. The angular velocity at the end of 4 radian is given by omega rad/s then find the value of omega .

A particle is moving along a circular path ofradius R in such a way that at any instant magnitude of radial acceleration & tangential acceleration are equal. 1f at t = 0 velocity of particle is V_(0) . Find the speed of the particle after time t=(R )//(2V_(0))

Average velocity of a particle executing SHM in one complete vibration is

Two particles move on a circular path (one just inside and the other just outside) with the angular velocities omega and 5omega starting from the same point. Then

A particle is moving along a circular along a circular path of radius 5 m with a uniform speed 5ms^(-1) . What will be the average acceleration when the particle completes half revolution?

In one second, a particle goes from point A to point B moving in a semicircle (Fig). Find the magnitude of the average velocity.