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.

Horizontal force applied on rod by hinge just before the rod hits the surface is:

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:

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. Velocity with which the non-hinged end of rod strikes the surface is:

A uniform rod of mass m and length L is free to rotate in the vertical plane about a horizontal axis passing through its end. The rod initially in horizontal position is released. The initial angular acceleration of the rod is:

A uniform rod of length L is free to rotate about an axis passing through O . Inititally the rod is horizontal. The rod is relased from this position. Match column I with column II

A uniform rod of length L is free to rotate about an axis passing through O . Inititally the rod is horizontal. The rod is relased from this position. Match column I with column II

A rod PQ of mass m and length L is rotated about an axis through P as shown in figure. Find the moment of inertia of the rod about the axis of rotation.

A rod AB of mass m and length L is rotating in horizontal plane about one of its ends which is pivoted. The constant angular speed with which the rod is rotating is omega . The force applied on the rod by the pivot is

A rod AB of mass m and length L is rotating in horizontal plane about one of its ends which is pivoted. The constant angular speed with which the rod is rotating is omega . The force applied on the rod by the pivot is

A uniform rod of mass m and length L is fixed to an axis, making an angle theta with it as shown in the figure. The rod is rotated about this axis so that the free end of the rod moves with a uniform speed ‘v’. Find the angular momentum of the rod about the axis. Is the angular momentum of the rod about point A constant?