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 shown in 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 of the particle as a function of time is:

A particle moving on a circular path makes 600 rpm. In how much time it will complete one revolution?

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

The angular velocity of a particle moving in a circle realative to the center of the circle is equal to omega . Find the angular velocity of the particle relative to a point on the circular path.

A particle is moving on a circular path of radius 10m with uniform speed of 4ms^(-1) .The magnitude of change in velocity of particle when it completes a semi circular path is

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 :-

The angular position of a particle changes from 3 rad to 7 rad in 2 seconds. Calculate the angular velocity of the particle.

The angular position of a particle changes from 3 rad to 7 rad in 2 seconds. Calculate the angular velocity of the particle.

A car is moving in a circular path of radius 100 m with velocity of 200 m/sec such that in each sec its velocity increases by 100 m/s, the net acceleration of car will be - (in m/sec)

A particle moves along a circular path of radius R. The distance and displacement of a particle after one completer revolution is