A wheel has angular acceleration of `3.0 rad//s^2` and an initial angular speed of `2.00 rad//s`. In a time of `2 s` it has rotated through an angle (in radian) of

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 wheel has a constant angular acceleration of 3rad/ s^2 . During a 4 s interval, it turns through an angle of 60 rad. If the wheel started from rest, how long has it been in motion before the start of this 4 s interval?

A dust particle lying at the rim of a wheel has an angular speed of 22 rad/s. Find the time period.

A wheel at constant angular acceleration with 3 rad/s^(2) . During a 4s interval,it turns through an angel of 60 rad . If the wheel started from rest how long has it been in motion before the start of this 4s interval?

A car wheel is rotated to uniform angular acceleration about its axis. Initially its angular velocity is zero. It rotates through an angle theta_(1) in the first 2 s. In the next 2 s, it rotates through an additional angle theta_(2) , the ratio of (theta_(2))/(theta_(1)) is

A fan is switched on and it accelerates at a constant angular acceleration of 2 rad//s^(2) till it attains an angular velocity of 18 rad//s . At this instant power is switched off, Assuming there is no dissipative force, the angular displacement made by it in 20 seconds is

A wheel whose moment of inertia is 10kgm^(2) has an initial angular velocity of 20 rad//s . A constant torque of 20 Nm acts on the wheel. The time in which wheel is acceleration to 100 rad//s is

A particle is revolving in a circle of radius 1 m with an angular speed of 12 rad/s. At t = 0, it was subjected to a constant angular acceleration alpha and its angular speed increased to (480/pi) rotation per minute (rpm) in 2 sec. Particle then continues to move with attained speed. Calculate (i) angular acceleration of the particle, (ii) tangential velocity of the particle as a function of time. (iii) acceleration of the particle at t = 0.5 second and at t = 3 second (iv) angular displacement at t = 3 second.

A wheel starts rotating at 10 rad/sec and attains the angular velocity of 100 rad/sec in 15 seconds. What is the angular acceleration in rad/ sec^(2) ?

Two particles A and B move on a circle Initially, particles A and B are diagonally opposite to each other. Particle A moves with angular velocity pi rad s^-1 and angular acceleration pi//2 rad s^-2 and particle B moves with constant angular velocity 2 pi rad s^-2 . Find the time after which both the particlsd A nad B will collide.