A point on the rim of a disc starts circular motion from rest and after time t, it gains an angular acceleration given by `alpha=3t-t^(2)`. Calculate the angular velocity after 2 s.

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 :-

If object starts moving with acceleration beta t, then what will be the velocity after 't' time ?

If angular velocity of a disc depends an angle rotated theta as omega=theta^(2)+2theta , then its angular acceleration alpha is :

A coin is placed on the horizontal surface of a rotation disc. The distance of the coin from the axis is 1 m and coefficient of friction is 0.5. If the disc starts from rest and is given an angular acceleration (1)/(sqrt(2)) rad / sec^(2) , the number of revolutions through which the disc turns before the coin slips is

The angular velocity of a particle is given by omega=1.5t-3t^(2)+2 , Find the time when its angular acceleration becomes zero.

A particle starts motion from rest and moves along a straight line. Its acceleration-time graph is shown. Find out speed of particle at t=2s and at t=3s.

If angular velocity of a disc depends an angle rotated theta as omega=theta^(3)+2theta^2 , then its angular acceleration alpha at theta=1 rad is :

If angular velocity of a disc depends an angle rotated theta as omega=theta^(2)+2theta , then its angular acceleration alpha at theta=2 rad is :

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 .

If angular velocity of a disc depends an angle rotated theta as omega=theta^(2)+2theta , then its angular acceleration alpha at theta=1 rad is :