The linear density of a non`-`uniform rod of length `2m` is given by `lamda(x)=a(1+bx^(2))` where `a` and `b` are constants and `0lt=xlt=2`. The centre of mass of the rod will be at. `X=`

The density of a non-uniform rod of length 1 m is given by rho(x)=a(1+bx^(2)) where, a and b are constants and 0lexle1 . The centre of mass of the rod will be at ………..

The coefficient of linear expansion 'alpha ' of the material of a rod of length l_(0) varies with absolute temperature as alpha = aT -bT^(2) where a & b are constant. The linear expansion of the rod when heated from T_(1) to T_(2) = 2T_(1) is :-

The centre of mass of a non uniform rod of length L whoose mass per unit length varies as p=kx^(2)//L , (where k is a constant and x is the distance measured form one end) is at the following distances from the same end

If the linear density of rod of length 3 m varies as lambda=2+x then the distance of centre of gravity of the rod is………….

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.

A rod of length L and cross section area A has variable density according to the relation rho (x)=rho_(0)+kx for 0 le x le L/2 and rho(x)=2x^(2) for L/2 le x le L where rho_(0) and k are constants. Find the mass of the rod.

Two uniform thin rods each of length L and mass m are joined as shown in the figure. Find the distance of centre of mass the system from point O

The area of cross-section of rod is given by A= A_(0) (1+alphax) where A_(0) & alpha are constant and x is the distance from one end. If the thermal conductivity of the material is K . What is the thermal resistancy of the rod if its length is l_(0) ?

The moment of inertia of a rod about an axis through its centre and perpendicular to it is (1)/(12)ML^(2) (where M is the mass and L, the length of the rod). The rod is bent in the middle so that the two halves make an angle 60^(@) . The moment of inertia of the bent rod about the same axis would be..........