A rod `AB` of mass `M` and length `L` is shown in figure. End `A` of rod is hinged and end `B` is lying on the ground. Find the

Vertical component of the force applied by the hinge

A rod AB of mass M and length L is shown in figure. End A of rod is hinged and end B is lying on the ground. Find the Horizontal component of the force applied by the hinge

A rod AB of mass M and length L is shown in figure. End A of rod is hinged and end B is lying on the ground. Find the Horizontal component of the force applied by the hinge

A rod AB of mass M and length L is shown in figure. End A of rod is hinged and end B is lying on the ground. Find the Normal reaction by ground on the rod

A rod AB of mass M and length L is shown in figure. End A of rod is hinged and end B is lying on the ground. Find the Normal reaction by ground on the rod

A rod of mass m and length L is hinged at its top end. If the rod is in equilibrium making an angle of 30^(@) with the vertical when a horizontal force F is applied as shown in figure, then the value of F is:

A rod of mass m and length L is hinged at its top end. If the rod is in equilibrium making an angle of 30^(@) with the vertical when a horizontal force F is applied as shown in figure, then the value of F is:

A rod of mass m and length l is hinged at 'its' end and released from rest in position shown. Find the force exerted by the hinge when the rod becomes horizontal

A uniform rod mass m and length L is free to rotate about hinge O . A slight disturbance cause the rod to rotate freely about O and it strikes the ground. Vertical force applied by hinge on rod at the moment it strikes the ground is: