On the application of a constant torque , a wheel is turned from rest through 400 radians in 10 s. The angular acceleration is :

When a constant torque is applied, a wheel is turned from rest through 200 radians in 10 s. What is its angular acceleration. If the same torque continues to act what is the angular velocity of the wheel after 15 s from the start ?

On the application of a constant torque, a wheel is turned from rest through an angle of 200 rad in 8s. Calculate its angular acceleration.

On application of a constant torque, a wheel is turned from rest through an angle of 200 radius in 8 s . What is its angular acceleration ? If the same torque continues to act, what will be the angular velocity of the wheel 16 s from the start ?

On applying a constant torque, a wheel at rest, turns through 400 radian in 10 s . Find angular acceleration. If same torque continues to act, what will be angular veclocity of the wheel after 20 s from stars ?

On applying a consatnt torque, a wheel at rest, turns through 400 radian in 10 s . Find angular acceleration. If same torque continues to act, what will be angular veclocity of the wheel after 20 s from stars ?

A torque of 50 N-m acting on a wheel at rest rotates it through 200 rad in 5 sec. Its angular acceleration is -

A torque of 100 Nm acting on a wheel at rest, rotates it through 200 radians in 10 s. The angular acceleration of the wheel, in rad//s^(2) is

A torque of 100 Nm acting on a wheel at rest, rotatesit through 200 radiansin10 s.The angular acceleration of the wheel, in rad/s^2 is

A constant torque is acting on a wheel. If starting from rest, the wheel makes n rotations in t seconds, Show that the angular acceleration is given by alpha = \frac { 4 \pi n } { t ^ { 2 } } rad s^-2 .