Two spheres A and B are charged with the charges of +10 and +20 coulomb respectively and separated by a distance of 80 cm. The electric field at point on the line joining the centres of the two spheres will be zero at a distance from the sphere A :

Two spheres A and B of radii 17 cm each and having charges of 1 and 2 coulombs respectively are separated by a distance of SO cm. The electric field at a point on the line joining the centres of two spheres is approximately zero at some distance from the sphere A. The electric potential at this point is:

Two spheres A and B are having radii 5 cm and 10 cm and carrying charges of +5C and +15 C respectively, distributed uniformaly. Their centres are separated by 80 cm. The electric field on the line joining the centres of the spheres will be zero at a distance from the centre of A equal to

Two heavy spheres of mass m are kept separated by a distance 2r. The gravitational field and potential at the midpoint of the line joining the centres of the spheres are

Two spheres each of mass M and radius R are separated by a distance of r . The gravitational potential at the potential at the midpoint of the line joining the centres of the spheres is

Two charges 10 muC and - 10 muC are placed at points A. and B separated by a distance of 10 cm. Find the electric. field at a point P on the perpendicular bisector of AB at. a distance of 12 cm from its middle point.

Two heavy spheres of masses 10^(4) kg and 10^(6) kg and each of radius 20 cm are separated by a distance of 100 m. What will be the potential at the mid-point of the joining their centres ?

Two spheres of radius a and b respectively are charged and joined by a wire. The ratio of electric field of the spheres is

A small sphere carries a charge of 20muC . The energy density of electric field at a point 25 cm away from the centre of the sphere in air is