Three capacitors are connected to `D.C` source of `100` volts shown in the adjoining figure. If the charge accumulated on plates of `C_(1), C_(2)` and `C_(3)` are `q_(a), q_(b), q_(c ), q_(d), q_(e)` and `q_(f)` respectively, then

In, the charges on C_(1),C_(2) , and C_(3) , are Q_(1), Q_(2) , and Q_(3) , respectively. .

A capacitor of capacitance C carrying charge Q is connected to a source of emf E . Finally, the charge on capacitor would be

Find the force on a charge q_(1)(=20 mu C) due to the charge of q_(2)(=10 mu C) if the positions of the charges are given as P_(1)(1,-1,2) and Q(-1,1,1) . .

Charges q_(1) , q_(2) and q_(3) are placed on capacitors of capacitance C_(1) , C_(2) and C_(3) , respectively, arranged in series as shown. Switch S is there closed. What are the final charges q'_(1) , q'_(2) and q'_(3) on the capacitors? Given q_(1)=30muC , q_(2)=muC , q_(3)=10muC , C_(1)=10muF , C_(2)=20muF , C_(3)=30muF and epsilon=12"volt"

There are three conecentric hollow spheres of radii a, b and c and they are charged with charges q_(1),q_(2) and q_(3) respectively. Calculate the potential of the spheres.

Four capacitors C_(1)(=1 muF),C_(2)(=2muF),C_(3)(=3muF) and C_(4)(=4 muF) are connected in a network as shown in the diagram. The emf of the battery is E = 12 V and its internal resistance is negligible. The keys S_(1) and S_(2) can be independetly put on or off. Indicate the charge on the capacitors by q_(1),q_(2),q_(3) and q_(4) respectively and the potential drops across them by V_(1),V_(2),V_(3) and V_(4) respectively. Initially both the keys are open. Then the key S_(1) is closed. Then the charges on the capacitors are.

Four particles A, B, and C and D of masses m_(A), m_(B), m_(B) and m_(D) respectively, follow the paths shown in the figure, in a uniform magnetic field. Each particle moving with same speed. Q_(A), Q_(B), Q_(C) and Q_(D) are the specific charge of particles A, B, C and D respectively (assume that the motion of each particle is in the same plane perpendicular to the magnetic field).

The ratio of charge on left surface of plate A to the charge on the right surface of plate B is +Q +3Q -20 (A) (B) (C)

The circle C_(1) : x^(2)+y^(2)=3 , with cenre at O, intersects the parabola x^(2)=2y at the point P in the first quadrant. Let the tangent to the circle C_(1) at P touches other two circles C_(2) and C_(3) at R_(2) and R_(3) respectively. Suppose C_(2) and C_(3) have equal radii 2sqrt(3) and centres Q_(2) and Q_(3) respectively. If Q_(2) and Q_(3) lie on the y-axis, then Q_(2)Q_(3)=