For torsional oscillator, `sqrt(I//C)` has dimensions of ? Where `C` is torsional constant and `I` is moment of inertia :

The dimensions of gravitational constant G and the moment of inertia are, respectively

The ratio of the dimensions of plank's constant and that of the moment of inertia is the dimension of

The ratio of the dimension of Planck's constant and that of moment of inertia is the dimension of

The ratio of the dimensions of Planck's constant and that of moment of inertia has the dimensions of

A circular disc of mass 12 kg is suspended by a wire attached to its centre. The wire is twisted by rotating the disc and then released, so that the time period of torsional oscillation is 2 s. If the radius of the disc is 10 cm, then calculate the torsional spring constant of the wire.

(a) A uniform disc of radius 5*0cm and mass 200g is fixed at its centre to a metal wire, the other end of which is fixed with a clamp. The hanging disc is rotated about the wire through an angle and is released. If the disc makes torsional oscillations with time period 0.20s , find the torsional constant of the wire. (b) In the previous part, another disc is placed over the first one and the time period of the system become 0.65 . Find the M.I. of the second disc about the wire.

The pulley of mass m shown in figure has moment of inertia I about its axis. Find the time period of vertical oscillation of its centre of mass. The spring has spring constant k and the string does not slip over the pulley.

Which one of the following statements concerning the moment of inertia I is false?

Find the period of small torsional oscillational of a system consisting of two discs slipped oon a thin rod with rod with torsional coefficient k . The moments of inertia of discs relative to the rod's axis are equal to I_(1) and I_(2) .