Two heavy particles of masses 40 kg and 60 kg attracts each other with a fore of `4 xx 10^(-5) N`. If G is `6xx10^(-11) N-m^(2) kg^(-2)`, calculate the distance between them.

A sphere of mass 40 kg is attracted by a second sphere of mass 60 kg with a force equal to 4 mg . If G = 6 xx 10^(-11) N m^(2) kg^(-2) , calculate the distance between them. Acceleration due to gravity = 10 ms^(-2).

Two equal magnetic poles placed 10 cm apart in air attract each other with a force of 0.4 xx 10^(-4)N . What should be the distance of separation between them so that the force of attraction of 0.6 xx 10^(-4)N ?

An electron of mass 9.1xx10^(-31) kg is at a distance of 10 A^(@) from a. porton of mass 1.67xx10^(-27) kg. calculate the gravitational force of attraction between them.

Two bodies of masses 100 kg and 1000 kg are at a distance 1.00 m apart. Calculate the gravitaional field line joining them. G = 6.67 xx 10^(-11) N m^(2) kg^(-2) .

Two bodies each of mass 10 kg attract each other with a force of 0.1 milligram weight. What is the distance between them ?

If a spaceship orbits the earth at a height of 500 km from its surface, then determine its (i) kinetic energy, (ii) potential energy, and (iii) total energy (iv) binding energy. Mass of the satellite = 300 kg, Mass of the earth = 6xx10^(24) kg , radius of the earth = 6.4 xx 10^(6) m, G=6.67 xx 10^(-11) "N-m"^(2) kg^(-2) . Will your answer alter if the earth were to shrink suddenly to half its size ?

The radius of the moom is 1.7 xx 10^(6) m and its mass is 7.4 xx 10^(22) kg . If G = 6.67 xx 10^(-11) Nm^(2) kg^(-2) , find the value of acceleration due to gravity on the surface of moon.

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.

The radius of the earth is 6.37 xx 10^(6) m and its mean density is 5.5 xx 10^(3) "kg m"^(-3) and G = 6.67 xx 10^(-11) "N-m"^(2) kg^(-2) Find the gravitational potential on the surface of the earth.