In the circuit shown in fig. the cell has emf 10V and internal resistance `1 Omega`

In the circuit shown below, the cell has an e.m.f. of 10 V and internal resistance of 1 ohm . The other resistances are shown in the figure. The potential difference V_(A) - V_(B) is

In the electric circuit shown each cell has an emf of 2 V and internal resistance of 1Omega . The external resistance is 2Omega . The value of the current is (in A)

Two cells e_(1) and e_(2) connected in opposition to each other as shown in figure. The cell of emf 9 V and internal resistance 3Omega the cell is of emf 7V and internal resistance 7Omega . The potential difference between the points A and B is

In the circuit shown in fig. the cell is ideal with emf 15V. Each resistance is of 3Omega. The potential difference across the capacitoro in steady state is

In the figure shown, battery 1 has emf =6V and internal resistance = 1Omega. Battery 2 has emf =2V and internal resistance =3Omega. The wires have negligible resistance. What is the potential difference across the teminals of battery 2 ?

An ammeter of resistance 0.02 Omega is connected in the usual may to a circuit in a circuit consisting of a cell of emf 2V and internal resistance 1Omega and a resistor of 9Omega . What is the percentage error in the reading of the ammeter? [Hint: I_(real)=2/10=0.2 , I_(apparent)= 2/10.02)

In the shown circuit the following battery is of emf 4V and internal resistance 8 Omega . Find the potential difference between points x and y as shown in the circuit.

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?