The center of mass for a uniform rod of mass M and length `(1)/(2)` i.e., 0.5 l lies at the

The moment of inertia of a uniform rod of mass 0.50 kg and length 1 m is 0.10 kg m^2 about a line perpendicular to the rod. Find the distance of this line from the middle point of the rod.

The moment of inertia of a thin uniform rod of mass M and length L about an axis passing through its mid point and perpendicular to is length is 10 . Its moment of inertia about an axis passing through one of its ends and perpendicular to its ends and perpendicular to its length is

One end of a uniform rod of mas m and length l is clamped. The rod lies on a smooth horizontal surface and rotates on it about the clamped end at a uniform angular velocity omega . The force exerted by the clamp on the rod has a horizontal component

The moment of inertia of a thin rod of mass 'M' and length 'l' about an axis passig through its centre is (Ml^(2))/(12) . Calculate the moment of inertia about a parallel axis through end of rod.

The center of mass is located at position i EX.5.4. Locate the center of mass of a uniform rod of mass M and length

Two identical uniform rods AB and CD, each of length L are jointed to form a T-shaped frame as shown in figure. Locate the centre of mass of the frame. The centre of mass of a uniform rod is at the middle point of the rod.

A uniform rod of mass m and length l is struck at an end by a force F perpendicular to the rod for a short time interval t. Calculate a. the speed of the centre of mass ,b. the angular speed of the rod about centre of mass, c. the kinetic energy of the rod and d. the angular moment of the rod about the centre of mass after the force has stopped to act. Assume that t is so small that the rod does not apreciably change its direction while the force acts.

A uniform ring of mas m and radius a is placed directly above a uniform sphere of mass M and of equal radius. The center of the ring is at a distance sqrt3 a from the center of the sphere. Find the gravitational force exerted by the sphere on the ring.

Two rods one of aluminium and the other made of steel having initial length l_(1) and l_(2) are connected together to form a single rod of length l_(1) + l_(2) . The co - efficient of linear expansion for aluminium steel are a_(a) and alpha_(a) respectively . If the length of each rod increases by ghe same amount when their temeperature are raised by + .^(@)C then find the ratio (l_(1))/(l_(1)+ l_(2))