1000 small water drops each of capacitance C join together to form one large spherical drop. The capacitance of bigger sphere is

1000 small water drops each of radius r and charge q coalesce together to form one spherical drop. The potential of the bigger drop is larger than that of the smaller one by a factor

1000 small water drops each of raius r and charge q coalesce together to form one spherical drop. (A) the ratio of capacitances of big and small drop is 10 (B) the ratio of potential of big and small drop is 100 (c) the ratio of surface charge densities of big and small drop is 10 (D) the ratio of energy stored of big and small drop is 10^(5)

Two identical charged spherical drops each of capacitance C merge to from a single drop. The resultant capacitance is

Thousand small mercury drops each of the radius r and charge q coalesce together to form one spherical drop. What is the ratio of the potential of the bigger drop to that of the smaller one?

Sixty four identical sphere of change q and capacitance C each are combined to form a large sphere . The charge and capacitance of the large sphere is

Calculate the energy released when 1000 small water drops each of same radius 10^(-7)m coalesce to form one large drop. The surface tension of water is 7.0xx10^(-2)N//m .

1000 small drops of water each of radius 'r' are joined together to form a single drop of water During the process the change in energy has raised the temerature . If T is the surface tension of the water , d is density , the rise in temperature is

N drops of mercury of equal radii and possessing equal charges combine to form a big spherical drop. Then the capacitance of the bigger drop compared to each individual drop is