If we shift a body in equilibrium from A to C in a gravitational field via path AC or ABC,

An object is taken from a point P to another point Q in a gravitational field:

Assertion: The centre of gravity of a body coincides with its centre of mass only if the gravitational field does not vary form one part of the body to the other. Reason: Centre of gravity is independent of the gravitational field.

Assertion : Gravitational potential is maximum at infinite. Reason : Gravitational potential is the amount of work done to shifting a unit mass from infinity to a given point in gravitational attraction force field.

Is it possible to shield a body from gravitational effects?

The work done in moving a particle in the gravitational field of earth from point A to point B along three different paths 1,2 and 3 are W_(1) , W_(2) and W_(3) respectively , then

A block of mass m is lying at a distance r from a spherical shell of mass m and radius r, then : A. only gravitational field inside the shell is zero B. gravitational field and gravitational potential both are zero inside the shell C. gravitational potential as well as gravitational field inside the shell are not zero . D. can't be ascertained

In a spherical region the densiy varies inversely with the distance from ther centre Gravitational field at a distance r from the centre is .

Statement I: A body in equilibrium has to be at reat only. Statement II: A body in equilibrium may be moving with a constant speed along a straight line path.

If magnetic field in space is 1Thati , electric field is 10 N//Chati , no gravitational field is present and a charged particle is released from rest from origin, it will

If gravitational field Intensity is E at distance R/2 outside from then surface of a thin shell of radius R , the gravitational field intensity at distance R/2 from its centre is