The gravitational force acting on a particle of 1 g due to a similar particle is equal to `6.67xx10^-17 N`. Calculate the separation between the particles.

Demonstrate that the gravitational force acting on a particle A inside a uniform spherical layer of matter is equal to zero.

If the gravitational force between two bodies of masses 10 kg and 100 kg separated by a distance 10 m is 6.67 xx 10^(-10) N, then the force between the given masses would be ______ N if they are placed in a geostationary satellite without change in the distance between them.

Gravitational force acts on a particle due to fixed uniform solid sphere. Neglect other forces. Then particle

Gravitational force acts on a particle due to fixed uniform solid sphere. Neglect other forces. Then particle

The magnetic force acting on a charged particle of charge -2 muC in a magnetic field of 2 T acting y direction, when the particle velocity is (2i + 3 hat(j)) xx 10^(6) ms^(-1) , is

Figure. Shows the variation of force acting on a particle of mass 400 g executing simple harmonic motion. The frequency of oscillation of the particle is

The force acting on a mass of 1 g due to the gravitational pull on the earth is called 1 gwt. One gwt equals