A particle moves in a circle of radius 25 cm at 2 revolution per second. The acceleration of the particle in meter per second`""^(2)` 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

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 particle moves in a circle of radius 1 cm at a speed given v = 2t , where v is cm/s and t is in seconds. Total acceleration of the particle at t=1 second is 2 sqrt(n) cm//s^(2) . Find value of n .

A particle moves along a circle of radius r with constant tangential acceleration. If the velocity of the particle is v at the end of second revolution, after the revolution has started, then the tangential acceleration is

A particle moves in a circle of radius 20 cm. Its linear speed is given by v=2t, where t is in second and v in metre/ second. Find the radial and tangential acceleration at t=3s.

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 ?

A particle is moving in a circle of radius (2)/( 3) m and mass of the particle is 2kg. The kinetic energy of the particle dependes on distance 'S' travelled by the particle as K.E. = 4S^(4) . The angle made by net acceleration with the radial acceleration when the particle rotate by 60^(@) is

A charge q coulomb moves in a circle at n revolution per second and the radius of the circle is r metre. Then magnetic feild at the centre of the circle is

A charge of 10^(-6)C is describing a circular path of radius 1cm making 5 revolution per second. The magnetic induction field at the centre of the circle is

A particle moves along a circle if radius (20 //pi) m with constant tangential acceleration. If the velocity of the particle is 80 m//s at the end of the second revolution after motion has begun the tangential acceleration is .