A thin bar of length L has a mass per un...

A thin bar of length L has a mass per unit length `lambda`, that increases linerarly with distance from one end. If its total mass is M and its mass per unit length at the lighter end is `lambda_(0)`, then the distance of the centre of mass from the lighter end is

Similar Questions

Explore conceptually related problems

A rod of length 3 m has its mass per unit length directly proportional to distance x from one of its ends then its centre of gravity from that end will be at

The mass per unit length (lambda) of a non-uniform rod varies linearly with distance x from its one end accrding to the relation, lambda = alpha x , where alpha is a constant. Find the centre of mass as a fraction of its length L.

A rod of length L is of non uniform cross-section. Its mass per unit length varies linearly with distance from left end. Then its centre of mass from left end is at a distance. (Take linear density at left end=0).

Mass is non-uniformly distributed over the rod of length l, its linear mass density varies linearly with length as lamda=kx^(2) . The position of centre of mass (from lighter end) is given by-

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

A thin bar of length L has a mass per unit length `lambda`, that increases linerarly with distance from one end. If its total mass is M and its mass per unit length at the lighter end is `lambda_(0)`, then the distance of the centre of mass from the lighter end is

Similar Questions

Recommended Questions