Two batteries with e.m.f 12 V and 13 V are connected in parallel across a load resistor of `10 Omega`. The internal resistances of the two batteries are `1 Omega` and `2 Omega` respectively. The voltage across the load lies between :

A 50V battery is connected across a 10 ohm resistor. The current is 4.5 amperes. The internal resistance of the battery is

The internal resistance of two cells shown are 0.1Omega and 0.3Omega . If R=0.2Omega, the potential difference across the

The e.m.f. e and the internal resistance r of the battery shwn in figure are 4.3 V and 1Omega respectively. The external resistance R is 50Omega . The resistance of the ammeter and voltmeter are 2.0Omega and 200Omega respectively. If the switch is thrown to the other side, the reading of the ammeter will be

Choose correct alternative. The internal resistance of a cell of emf 2V is 0.1 Omega . It is connected to a resistance of 0. 9 Omega . The voltage across the cell will be.

Choose correct alternative. A battery of emf 2V sends a current of 0.1A when connected to a resistance 18 Omega , The internal resistance of cell is

Two resistors 1k Omega and 2k Omega are connected in parallel combination. Find equivalent resistance of parallel combination.

A battery having e.m.f. 5V and internal resistance 0.5 is connected with a resistance of 4.5 Omega , then the voltage at the terminals of the battery is