A particles is moving on circular path of radius R with constant angular velocity `omega`. Its centripetal acceleration will be …... .

For particle moving on circular path with constant speed angle between instantaneous velocity and instantaneous acceleration will be …... .

An alpha is moving along a circle of radius R with a constant angular velocity omega . Point A lies in the same plane at a distance 2R from the centre. Point A records magnetic field produced by the alpha -particle. If the minimum time interval between two successive time at which A records zero magnetic field is t, the angular speed omega , in terms of t, is

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))

A particle is moving on a circular path of radius 1.5 m at a constant angular acceleration of 2 rad//s^(2) . At the instant t=0 , angular speed is 60//pi rpm. What are its angular speed, angular displacement, linear velocity, tangential acceleration and normal acceleration and normal acceleration at the instant t=2 s .

A particle is travelling in a circular path of radius 4m . At a certain instant the particle is moving at 20m/s and its acceleration is at an angle of 37^(@) from the direction to the centre of the circle as seen from the particle (i) At what rate is the speed of the particle increasing? (ii) What is the magnitude of the acceleration?

A particle of mass m moves on a circular path of radius r . Its centripetal acceleration is kt^(2) , where k is a constant and t is time . Express power as function of t .

A particle is moving in a circular path of radius a under the action of an attractive potential U = -k/(2r^(2)) .Its energy is

A particle is moving in a circular orbit with a constant tangential acceleration. After a certain time t has elapsed after the beginning of motion, the between the total acceleration a and the direction along the radius r becomes equal to 45^(@) . What is the angular acceleration of the particle.