The centre of mass of a non-uniform rod of length L whose mass per unit length `lambda` is proportional to `x^2`, where x is distance from one end

The centre of mass of a non uniform rod of length L, whose mass per unit length varies as rho=(k.x^2)/(L) where k is a constant and x is the distance of any point from one end is (from the same end)

Find coordinates of mass center of a non-uniform rod of length L whose linear mass density lambda varies as lambda=a+bx, where x is the distance from the lighter end.

The moment of inertia of a uniform thin rod of length L and mass M about an axis passing through a point at a distance of L//3 from one of its ends and perpendicular to the rod is

The radius of gyration of a uniform rod of mass m and length l about an axis perpendicular to its length and at distance l/4 from its centre will be

The radius of gyration of a uniform rod of length L about an axis passing through its centre of mass is

A uniform rod of length L , has a mass per unit length lambda and area of cross section A . The elongation in the rod is l due to its own weight, if it suspended form the celing of a room. The Young's modulus of the rod is

There is a rod of length l , its density varies with length as distance of lambda=ax , where x is distance from left end. Find center of mass from left end.

A non-uniform rod AB has a mass M ad length 2l. The mass per unit length of the rod is mx at a point of the rod distant x from A. find the moment of inertia of this rod about an axis perpendicular to the rod (a) through A (b) through the mid-point of AB.

Find the x coordinate of the centre of mass of the non - uniform rod of length L givne below. The origin is taken at the left end of the rod. The density of the rod as a function of its x- coordinates is rho=ax^(2)+bx+c , where a, b and c are constants.

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.