27drops of mercury of equal radius and possessing equal charge are allowed to combine to form a big drop.Find the ratio of potential of the big drop to that of a small drop.

Eight drops of mercury of equal radii and possessing equal charges combine to form a single big drop. The ratio of the capacitance of the big drop to the capacity of a single drop 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

N drops of mercury of equal radii and possessing equal charges combine to from a big drop. Compare the charge, capacitance and potential of bigger drop with the corresponding quantities of individual drops.

Eight drops of mercury of equal radii possessing equal charges combine to from a big drop. Then the capacitance of bigger drop compared to each individual small drop is

Eight small drops, each of radius r and having same charge q are combined to form a big drop. The ratio between the potentials of the bigger drop and the smaller drop is

when n small drops are made to combine to from a big drop then the big drop's

125 drops of water each of radius 2 mm and carrying charge of 1 nC are made to form a bigger drop. Find the capacitance and potential of the bigger drop.

n small drops, each of radius r and having same charge q are combined to from a big drop. Find rato of capacitance, potential and stored energy in bigger drop and smaller drop.

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?