When a particle is moving in a circle of radius (r) with changing speed (v) then centripetal acceleration and tangential acceleration respectively given by

A particle of mass m is moving in a circle of radius (r) with changing speed (v) the direction of centripetal force and tangential force are shown below the value of alpha is

A particle is moving on a circle of radius A .At an instant its speed and tangential acceleration are B and C respectively.Total acceleration of the particle at that instant is

A particle with the constant speed in a circle of radius r and time period T.The centripetal acceleration of a particle is

A particle moves in a circle of radius 5 cm with constant speed and time period 0.2pis . The acceleration of the particle is

A Particle of mass 'M' moves in a uniform circular path of radius 'r' with a constant speed 'v' then its centripetal acceleration is .

The figure shows the total acceleration a = 32 m s^(-2) of a moving particle moving clockwise in a circle of radius R = 1 m . What are the centripetal acceleration a and speed of the particle at the given instant ?

The acceleration of an object moving in a circle of radius R with uniform speed v 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))

If a particle moves in a circle of radius 4m at speed given by v=2t at t=4 sec, Total Acceleration of the particle will be:

(A): When a particle moves in a circle with a uniform speed, its velocity and accele ration both changes. (R): The centripetal acceleration in circular motion is dependent on angular velocity of the body.