Two spheres of radii 2 cm and 3 cm are charged to same potential. If `sigma_(1) and sigma_(2)` be respectively the values of surface charge density on the conductors, then the ratio `(sigma_(1))/(sigma_(2))` will be

Two spheres of radii 2 cm and 3 cm are charged to the same potential. If sigma and sigma_2 be respectively the values of surface charge density on the conductors, then the ratio (sigma_1)/(sigma_2) will be

Two spherical conductors of radii 4 cm and 5 cm are charged to the same potential. If sigma_(1) and sigma_(2) be respective value of surface density of charge on both the conductors, then the ratio of sigma_(1)//sigma_(2) will be

Electrical conductivies of Ge and Na are sigma_(1) and sigma_(2) respectively. If these substances are heard, then

Two metal wires of identical dimesnios are connected in series. If sigma_(1) and sigma_(2) are the conducties of the metal wires respectively, the effective conductivity of the combination is

Two metal wires of identical dimesnios are connected in series. If sigma_(1) and sigma_(2) are the conducties of the metal wires respectively, the effective conductivity of the combination is

Two isolated metallic spheres of radii 2 cm and 4 cm are given equal charge, then the ratio of charge density on the surfaces of the spheres will be

Two charged spheres of radii R_(1) and R_(2) having equal surface charge density. The ratio of their potential is

If sigma_(x) = 3, sigma_(y) = 4 , and b_(xy) = (1)/(3) , then the value of r is

A copper wire and an iron wire, each having an area of cross-section A and lengths L_(1) and L_(2) are joined end to end. The copper end is maintained at a potential V_(1) and the iron end at a lower potential V_(2) . If sigma_(1) and sigma_(2) are the conductivities of copper and iron respectively, then the potential of the junction will be

Two concentric spheres of radii R and r have similar charges with equal surface charge densities (sigma) . The electric potential at their common centre is