The angular velocity and angular acceleration of the pivoted rod are given as `omega` and `alpha` respectively. Fid the `x` and `y` components of acceleration of `B`.

Angular velocity and Acceleration

A sphere of radius r is rolling without slipping on a hemispherical surface of radius R . Angular velocity and angular acceleration of line OA is omega and alpha respectively. Find the acceleration of point P on sphere.

The SI unit of angular acceleration is

A uniiform disc of radius r spins with angular velocity omega and angular acceleration alpha . If the centre of mass of the disc has linear acceleration a , find the magnitude and direction of aceeleration of the point 1,2 , and 3 .

Motion With Constant Angular Acceleration

A solid body rotates with angular velocity omega=ati+bt^2j , where a=0.50rad//s^2 , b=0.060rad//s^3 , and i and j are the unit vectors of the x and y axes. Find: (a) the moduli of the angular velocity and the angular acceleration at the moment t=10.0s , (b) the angle between the vectors of the angular velocity and the angular acceleration at that moment.

A solid body rotates with angular velocity vecomega=3thati+2t^(2) hatj rad//s . Find (a) the magnitude of angular velocity and angular acceleration at time t=1 s and (b) the angle between the vectors of the angular velocity and the angular acceleration at that moment.

A uniform rod of length L and mass M is pivoted freely at one end and placed in vertical position. a. What is angular acceleration of the rod when it is at ann angle theta with the vertical? b. What is the tangential linear acceleration of the free end when the rod is horizontal?

A particle is moving on a circular path such that at any instant its position vector, linear velocity. Angular velocity, angular acceleration with respect to centre are vec(r),vec(v),vec(w),vec(alpha) respectively. Net acceleration of the particle is :-

Angular Acceleration and Centripetal Acceleration