A body rotates about a fixed axis with an angular acceleration of `3 rad//s^(2)` The angle rotated by it during the time when its angular velocity increases frm 10 rad/s to 20 rad/s (in radian) is

A body rotates about a fixed axis with an angular acceleration of 5 rad//s^(2) The angle rotated by it during the time when its angular velocity increases frm 10 rad/s to 20 rad/s (in radian) is

A body rotates about a fixed axis with an angular acceleration of 5 rad//s^(2) The angle rotated by it during the time when its angular velocity increases frm 20 rad/s to 30 rad/s (in radian) is

A disc rotating about its axis, from rest it acquires a angular speed 100rev/s in 4 second. The angle rotated by it during these four seconds (in radian) is

A wheel has angular acceleration of 3" rad/s"^(2) and initial angular speed of 2.00 rad/s. In a time 2 sec. it has rotated through an angle……….rad of :

A body rotating with uniform angular acceleration covers 100 pi (radian) in the first 5 s after the start. Its angular speed at the end of 5 s (in rad/s) is

A particle starts from rest and moves on a curve with constant angular acceleration of 3.0 rad//s^(2) . An observer starts his stopwatch at a certain instant and recond that the particle covers an angular span of 120 rad at the end of 4^(th) second. How long the particle has moved when the observer started his stopwatch?

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

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 :

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