A uniform rod of length `L` (in between the supports) and mass `m` is placed on two support `A` and `B`. The rod breaks suddenly at length `L//10` from the support `B`. Find the reaction at support `A` immediately after the rod breaks

A uniform rod of mass M and length L rests on two supports. A ball of mass m=M//3 is placed at distance L//8 from the center as shown. Find reactions at supports.

A uniform slender rod of length L and mass M is pivoted at one end. It is held horizontal and releasaed. Assume the pivot is frictionless. Find . (a) the angular acceleration of the rod immediately after it is released, and (b) the force F_(0) exerted on the rod by the pivot immediately after release.

A uniform beam of length L . And mass m is supported as shown. Of the cable suddenly breaks, determine , (a) the acceleration of end B . (b) the reaction at the pin support. .

One fourth length of a uniform rod of length 2l and mass m is place don a horizontal table and the rod is held horizontal. The rod is released from rest. Find the normal reaction on the rod as soon as the rod is released.

A uniform rod of length L and mass m is free to rotate about a frictionless pivot at one end as shown in figure. The rod is held at rest in the horizontal position and a coin of mass m is placed at the free end. Now the rod is released The reaction on the coin immediately after the rod starts falling is

A uniform thin rod of length 3 L is bent at right angles at a distance L from one end as shown in Fig. If length of rod is 1.8m , find the co-ordinates and position vector of the mass of the system.

A unifrom steel rod of length 1m and area of cross-section 20 cm^(2) is hanging from a fixed support. Find the increases in the length of the rod.

A uniform rod of mass M and length L is hinged at its lower end on a table. The rod can rotate freely in vertical plane and there is no friction at the hinge. A ball of mass M and radius R = (L)/(3) is placed in contact with the vertical rod and a horizontal force F is applied at the upper end of the rod. (a) Find the acceleration of the ball immediately after the force starts acting. (b) Find the horizontal component of hinge force acting on the rod immediately after force F starts acting.

A metal rod of length 50cm having mass 2kg is supported on two edges placed 10cm from each end. A 3kg load is suspended at 20cm from one end. Find the reactions at the edges (take g=10m//s^(2) )