In the circuit given here, the points A,B and C are 70 V, zero, 10 V respectively . Then,

For the network shown in figure, points A, B and C are at potentials of 70 V, zero and 10 V respectively

Shown a part of an electric circuit, The potentials at the points a,b,and c are 30V,12V,and 2V respectively.Find the currents through the three resistors.

In the network shown in fig. , points A, B, and C are at potentials of 70 V, 0, and 10V, respectively.

The arrangement shows a part of complete circuit. The potentials at point A and B are V_(1) and V_(2) respectively . Find the potential at point P. Strategy : The two capacitors C_(1) and C_(2) are connected in series . Therefore the charge on both of the capacitors is same . Let the potential at P is V .

In an L-C-R circuit the AC voltage across R, L and C comes out as 10 V , 10 V and 20 V respectively . The voltage across the enter combination will be

In an LCR series circuit the voltages across R,L and C at resonance are 40 V and 60V respectively the applied voltage is .

In an LCR series ac circuit the voltage across L,C and R are V_(1), V_(2) and V_(3) respectively The voltage of the source is .

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

In the given circuit the R.M.S values of voltages across the capacitor C, inductor L and resistor R_(1) are 12V, 10V and 5 V respectively. Then the peak voltage across R_(2) is

In the circuit shown here, cells A and B have emf 10 V each and the internal resistance is 5Omega for A and 3Omega for B. For what value of R will the potential difference across thhe cell A will be zero?