The internal resistance of primary cell is `4Omega` it genrater a current of `0.2A` and connected to a external resistance 0f `21 Omega` in which resistance connected is providing the the heat per second is

The internal resistance of a cell of emf 4 V is 0.1 Omega . It is connected to a resistance of 3.9 Omega . The voltage across the cell will be

Three resistance of values 2Omega,3Omega and 6Omega are to be connected to produce an effective resistance of 4Omega . This can be done by connecting.

How can three resistor of resistances 2 Omega, 3 Omega and 6 Omega be connected to give a total resistance of 1 Omega ?

How can three resistor of resistances 2 Omega, 3 Omega and 6 Omega be connected to give a total resistance of 4 Omega

The e.m.f. of a primary cell is 2V, when it is shorted then it gives a current of 4A. Calculate internal resistance of primary cell.

N identical cells whether joined together in series or in parallel, give the same current, when connected to an external resistance of 'R'. The internal resistance of each cell is:-

What maximum power can be obtained from a battery of emf epsilon and internal resistance r connected with an external resistance R ?

The emf E and the internal resistance r of the battery shown in figure are 4.3V and 1.0Omega respectively. The external resistan ce R is 50Omega . The resistance of the ammeter and voltameter are 2.0Omega an d 200Omega respectively. Find the respective reading of the voltmeter.

A battery has e.m.f. 4 V and internal resistance r . When this battery is connected to an external resistance of 2 ohms , a current of 1 amp . flows in the circuit. How much current will flow if the terminals of the battery are connected directly

A set of n identical resistors, each of resistance R Omega , when connected in series have an effective resistance X Omega and when the resistors are connected in parallel, their effective resistance is Y Omega . Find the relation between R, X and Y.