Consider a simple circuit shown in Fig. 2(ET).2. stands for a variable resistance R'.R' can vary from `R_(0)` to infinity. r is internal resistance of the battery `(rltltRltltlR_(0))`

For maximum power from battery the internal resistance of battery r is

In the circuit shown in figure resistance of each wire is r. Net resistance across

Consider the circuit shown in figure . For a given resistance R_(0) what must be the value of R_(1) so that the equivalent resistance between the terminals is equal to R_(0) ?

Consider the circuit shown in Figure . Ther terminal voltage of the 24.0 V battery is 21.2V. What are (a) The internal resistance r of the battery and (b) The resistance R of the circuit resistor ?

Consider the circuit shown in fig. Assuming R_1 = 2Omega, current passing through resistance R_1 is

Each resistance of the circuit shown in figure is r. The equivalent resistance between A and B is

A cell develops the same power across two resistances R_(1) and R_(2) separately. The internal resistance of the cell is

A cell develops the same power across two resistances R_(1) and R_(2) separately. The internal resistance of the cell is

In the circuit shows in Fig. 6.42 , resistors X and Y , each with resistance R , are connected to a 6 V battery of negligible internal resistance. A voltmeter, also of resistance R , is connected across Y . What is the reading of the voltmeter?

Consider circuit as shown . Which of the graph best represent V-l relationship across the variable resistance R.