An isolated sphere has a capacitance of 50 pF. (a) Calculate its radius. (b) how much charge should be placed on it to raise its potential ot `10^4 V`?

Each capacitor shown in figure has a capacitance of 5.0 mu F , The emf of the battery is 50 V , How much charge will flow though AB if the switch S is closed ?

Three capacitors of capacitances 2pF, 3pF and 4pF are connected in parallel. (a) What is the toal capacitance of the combination. (b) Determine the charge on each capacitor if the combination is connected to a 100V supply.

An isolated conducting sphere of radius 6cm has a charge of 1.5 muC . Calculate the energy stored in the field of this charged conductor and the energy density at the surface of the sphere.

The convex surface of a thin concave-convex lens of glass of refractive index 1.5 has a radius of curvature 20 cm. The concave surface has a radius of curvature 60 cm. The convex side is silvered and placed on a horizontal surface as shown in figure. (a) Where should a pin be placed on the axis so that its image is formed at the same place ? (b) If the concave part is filled with water (mu = 4/3), find the distance through which the pin should be moved so that the image of the pin again coincides with the pin.

A parallel plate capacitor has square plate of side 5 cm and separated by a distance of 1 mm . (a) Calculate the capacitance of this capacitor . (b) If a 10 V battery is connected to the capacitor what is the charge stored in any one of the plates? ( The value of epsilon_(0)= 8.85 xx10^(-12)Nm^(2)C^(-2)).

Two conducting spheres of radius r_(1) =8 cm and r_(2) =2 cm are separated by a distance much larger than 8 cm and are connected by a thin conducting wire as shown in the figure . A total charge of Q=+100 nC is placed on one of the spheres . After a fraction of a second the charge Q is redistributed and both the spheres attain electrostatic equilibrium . (a) Calculate the charge and surface charge density on each sphere. (b) Calculate the potential at the surface of each sphere .

A parallel plate capacitor having plate area 50cm^(2) and separated by a distance 2mm with dielectric material has a capacity of 100pF. The plates are charged to p.d. of 240V. Calculate the charge stored in it and the dielectic constant.

A parallel plate capacitor with air as dielectric between the plates has a separation of 5mm and plate area 50 cm^(2) is connected to a 200V source. Calculate a. the charge on the plates. (b) the charge on the plates if the space between the plates is filled with a dielectric K=5