In a portion of some large electrical network, currents icertain branches are known. The values of `(V_(A)-V_(B))` and `(V_(c) - V_(o))`are X and Y, respectively, where X and Y are

The figure shows a portion of a circuit. Resistor are known and indicated on diagram and voltmeter are identical. If voltmeters v_(1) and v_(2) reads 7.5v and 5v respecticely then reading of v_(3)

Find the equivalent resistance of the network shown in the figure between the points A and B if (i) V_(A) gt V_(B) (ii) V_(A) lt V_(B)

A uniform electric fied exists in x-y plane. The potential of ponts A(2m,2m),B(-2m,2m) and C(2m,3m) are 4V, 16V and 12V respectively. The electric field is

In the given circuit find the |V_(A) - V_(B)| where V_(A), V_(B) are electric potentials at the points A and B.

A circuit has a section ABC if the potential at point A,B and C are V_(1) , V_(2) and V_(3) respectively , calculate the potential at point O

A hollow conducting sphere is placed in an electric field produced by a point charge placed at P as shown in figure. Let V_(A), V_(B), V_(C ) be the potentials at points A, B and C respectively. Then

A hollow conducting sphere is placed in an electric field produced by a point charge placed at P as shown in figure. Let V_(A), V_(B), V_(C ) be the potentials at points A, B and C respectively. Then

A hollow conducting sphere is placed in an electric field produced by a point charge placed at P as shown in figure. Let V_(A), V_(B), V_(C ) be the potentials at points A, B and C respectively. Then

A uniform electric field exists in x-y plane. The potential of points A (-2m, 2m), B(-2m, 2m) and C(2m, 4m) are 4V, 16 V and 1 2 V respectively. The electric field is

The circuit consists of resistors and ideal cells. I_(1) and I_(2) are current through branches indicated in the figure, V_(A) and V_(B) is the potential at points A and B on the circuit The value of V_(A) - V_(B) in volts is: