Two bodies of masses m and M are placed at distance d apart. The gravitational potential (V) at the position where the gravitational field due to them is zero V is

Two bodies of masses m and 4m are placed at a distance r. The gravitational potential at a point on the line joining them where the gravitational field is zero is:

Two bodies of masses m and 4 m are placed at a distance r. The gravitational potential at a point on the line joining them where the gravitational field is zero, is

Two bodies of masses M_(1) and M_(2) , are placed at a distance R apart. Then at the position where the gravitational field due to them is zero, the gravitational potential is

Two bodies of masses m_(1) and m_(2) are placed at a distance r apart. Show that the position where the gravitational field due to them is zero, the potential is given by -G (m_(1) + m_(2) + 2 sqrt(m_(1) + m_(2)))//r

Two bodies of masses m and 9m are placed at a distance 'r'.The gravitational potential at a point on the line joining them where gravitational field is zero is (G is universal gravitational constant)

Two bodies of masses m_(1) and m_(2) ar placed at a distance r apart. Shows that the position where the gravitational field due to them is zer, the potential is given by V=-(G)/(r)"["m_(1)+m_(2)+2sqrt(m_(1)m_(2))"]"

Two bodies of masses m and 4m are placed at a distance r. The gravitational potential at a point due to mass m on the line joining where gravitational field is zero

Two bodies of masses M_(1) and M_(2) are kept separeated by a distance d. The potential at the point where the gravitational field produced by them is zero, is :-

At some point the gravitational potential and also the gravitational field due to earth is zero. The point is