A uniform rod of length 60 cm and mass 6kg is acted upon by two forces as shown in the diagram. The force exerted by 45 cm part ofthe rod on 15 cm part of the rod is

A uniform rod of length 1 and mass m is suspended by two vertical inextensible string as shown in the fig. The tension in the left string when right string snaps, is

A rod of length L and mass M is acted on by two unequal force F_(1) and F_(2) ( lt F_(1)) as shown in the following figure. The tension in the rod at a distance y from the end a is given by

A uniform rod of length 'L' and mass 'M' has been placed on a rough horizontal surface. The horizontal force 'F' applied on the rod such that the rod is just in the state of rest. If the coefficient of friction varies according to the relation mu = kx. Where 'K' is a +ve constant. Then

A uniform rod of mass m and length l is pivoted smoothly at point O as shown in figure. If a horizontal force F acts at the bottom of the rod and omega is the angular velocity of the rod which is a function of angle of rotation theta , then the maximum angular displacement of the rod is (Acceleration due to gravity, g)

A uniform thin rod of length 50 cm is bent so as to form the five sides of a regular hexagon. The distance of centre of mass from either end is

A uniform steel rod of length 1m and area of cross section 20 cm^2 is hanging from a fixed support. Find the increase in the length of the rod.

A uniform rod of length l and density rho is revolving about a vertical axis passing through its one end. If omega is the angular velocity of the rod then the centrifugal force per unit area of the rod is