Each resistance shown in the network is in ohm. Current through the resistor `3 Omega` is 0.25 A. The input voltage 'V' is equal to

In the figure shown the current through 2 Omega resistor is

In the following network, the current flowing through 15 Omega resistance is

For the resistor network shown in the potential drop between a and b s 12V. a. Current through resistance of 6Omega is ……….. b. Current through resistance 2 Omega is ……….. c. Current through resistance of 8 Omega is ...........

A network of resistances is connected to a 16 V battery with internal resistance of 1 Omega as shown in figure. (a) Compute the equivlaent resistance of the network. (b) Obtain the current in each resistor and (c ) obtain the voltage drop V_(AB), V_(BC) and V_(CD) .

In the network shown in the above figure find the current through 3 Omega and 10 Omega resistances.

An ideal voltmeter V is connected to a 2.0 Omega resistor and a battery with emf 5.0 V and internal resistance 0.5 Omega as shown in figure (a) What is the current in the 2.0 Omega resistor? (b) What is the terminal voltage of the battery? (c) What is the reading of the voltmeter?

A battery of emf 10 V and internal resistance 3Omega is connected to a resistor. The current in the circuit is 0.5 A . The terminal voltage of the battery when the circuit is closed is

A network of resistances is connected to a 16 V battery with internal resistance of 1 Omega , as shown in Fig. 4.33. (a) Compute epuivalent resistance of the network, (b) obtain the current In in each resistor, and (c ) obtain the voltage drops V_(AB), V_(BC) " and " V_(CD) .

Thirty six cells each of emf 1.5 V and internal resistance 0.5 Omega are used to send current through an external resistor of resistance 2 Omega . What is the best mode of grouping them and the current through the external resistor