The sun is rotating about its own axis. The spectral lines imitted from the two ends of its equator, for an observer on the earth will show

When a circular disc of radius 0.5 m is rotating about its own axis then the direction of its angular momentum is

Consider a spherical planet which is rotating about its axis such that the speed of a point on its equator is 'v' and the effective acceleration due to gravity on the equator is 1/3 of its value at the poles. What is the escape velocity for the particle at the pole of this planet?

What should be the velocity of earth due to rotation about its own axis so that the weight at equator become 3/5 of initial value. Radius of earth on equator is 6400 km

A rod has length l density of material D and area of cross section is A. If it rotates about its axis perpendicular to the length and passing through its centre, then its kinetic energy of rotation will be

What should be the velocity of earth due to rotation about its own axis so that the weight at equator becomes 2/5 of initial value? Radius of earth on equator is 6400 km and is 10 m/s^2 .

A metallic ring of mass 1 kg has moment of inertia 1 kg m^2 when rotating about one of its diameters. It is molten and remolded into a thin uniform disc of the same Radius. How much will its moment of inertia be, when rotated about its own axis.

A metallic ring of mass 1 kg has moment of inertia 1kg m2 when rotating about one of its diameters. It is molten and remoulded into a thin uniform disc of the same radius. H ow much will its moment of inertia be, when rotated about its own axis.

Let omega be the angular velocity of the earth's rotation about its axis. Assume that the acceleration due to gravity on the earth's surface has the same value at the equator and the poles. An object weighed at the equator gives the same reading as a reading taken at a depth d below earth's surface at a pole (dlt ltR) . the value of d is-

A thin circular ring of mass M is rotating about its axis with a constant angular velocity omega . Two objects each of mass m are attached gently to the opposite ends of a diameter of the ring.Then the ring now rotates with an angular velocity