Let `I_1 and I_2` be the moments of inertia of two bodies of identical geometrical shapek, the first made of aluminium and the second of iron.

If I_(1) is the moment of inertia of a uniform rod about an axis perpendicular to its length and passing through its one end. Now ring formed by bending the rod, if the moment of inertia about the diameter of ring I_(1) then (I_(1))/(I_(2)) = ……….

A light rod of length l has two masses m_(1)andm_(2) attached to its two ends. The moment of inertia of the system about and axis perpendicular to the rod and passing through the centre of mass is ………

In Young's double slit experiment, the two slits act as coherent sources of waves of equal amplitude A and wavelength lambda . In another experiment with the same arrangement the two slits are made to act as incoherent sources of wave of same amplitude and wavelength. If the intensity at the middle point of the screen in the first case is l, and in the second case is I_(2) then the ratio (I_(1))/(I_(2)) is .......

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..........

Two bodies have their moment of inertia I and 2I respectively about their axis of rotation. If their kinetic energies of rotation are equal, their angular momentum will be in the ratio :

A circular disc of moment of inertia I_(1) is rotating in a horizontal plane, about its symmetry axis, with a constant angular speed omega_(1) . Another disc of moment of inertia I_(2) is placed coaxially on the rotating disc. Initially the second disc has zero angular speed. Eventually both the discs rotate with a constant angular speed omega_(2) . The energy lost by the initially rotating disc to friction is ............

A body is freely dropped from a height h above the ground. Find the ratio of distances fallen in first one second, first two seconds, first three second ,also find the ratio of distances fallen in 1^(st) second, in 2^(nd) second, in 3^(rd) seconds

Let S_k ,k=1,2, ,100 , denotes thesum of the infinite geometric series whose first term s (k-1)/(k !) and the common ratio is 1/k , then the value of (100^2)/(100 !)+sum_(k=2)^(100)(k^2-3k+1)S_k is _______.

Statement I: Two solid cylindrical rods of identical size and different thermal conductivity K_1 and K_2 are connected in series. Then the equivalent thermal conductivity of two rods system is less than that value of thermal conductivity of either rod. Statement II: For two cylindrical rods of identical size and different thermal conductivity K_1 and K_2 connected in series, the equivalent thermal conductivity K is given by (2)/(K)=(1)/(K_1)+(1)/(K_2)