A rod and a block are of same mass. Initially rod is in horizontal position. What will be acceleration of tip of the rod just after the system is released from this position shown in figure.

A uniform rod of mass m and length l can rotate in a vertical plane about a smooth horizontal axis point H . a. Find angular acceleration alpha of the rod. just after it is released from initial horizontal position from rest'? b. Calculate the acceleration (tangential and radial) , point A at this moment.

A uniform rod of mass m and length l can rotate in vertical plane about a smooth horizontal axis hinged at point H . Find angular acceleration alpha of the rod just after it is released from initial position making an angle of 37^@ with horizontal from rest?

A particle of mass m is attached to an end of a uniform rod of mass M = 2m and length l_(1) which is suspended through its mid point by an inextensible string as shown initially the rod is in horizontal position and at rest. The system is released from this position Just after the release

A simple pendulum A and a homogeneous rod B hinged at its enda are released from horizontal position as shown in figure.

Three rods of the same mass are placed as shown in the figure. What will be the co-ordinates of the cneter of mass of the system ?

In the figure shown all the surface are smooth. All the blocks A, B and C are movable, x-axis is horizontal and y-axis verticle as shown. Just after the system is released from the position as shown.

A uniform rod of mass 20 Kg and length 1.6 m is piovted at its end and swings freely in the vertical plane. Angular acceleration of the rod just after the rod is relased from rest in the horizontal position is

A rod of mass M is hanged at one end at the other end, a block of same mass M is attached rigidly. The rod is held at in horizontal position and is suddenly released. The angular acceleration of the system about O is xg/(8l) then the value of X.