To verify Ohm's law, a student is provided with a test resistor `R_(T)`, a high resistance `R_(1)` . a small resistance `R_(2)`, two identical galvometers `G_(1)` and `G_(2)` and voltage source `V`. The correct circuit to carry out the experiment is.

You are provided with one low resistance R_(1) and one high resistance R_(H) , and two galvanometers. One galvanometer is to be converted to an ammeter and the other to a voltmeter. Show how you will do this with the help of simple, labelled diagrams.

Two resistors of resistance R_(1) and R_(2) having R_(1) gt R_(2) are connected in parallel. For equivalent resistance R, the correct statement is

Two resistors of resistance R_(1) and R_(2) having R_(1) gt R_(2) are connected in parallel. For equivalent resistance R, the correct statement is

Consider two identical galvanometers and two identical resistors with resistance R . If the internal resistance of the galvanometers R_(c) lt R//2 , which of the following statement(s) about any one of the galvanometers is (are) true?

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

A resistance R_(1) is connected to a source of constant voltage . On connecting a resistance R_(2) in series with R_(1)

The circuit has resistors of equal resistance R. The equivalent resistance between A and B, when key is closed is R_1 and when key is open is R_2 . Find the ratio R_1 and R_2 .

Statement I : In the circuit in Fig. 7.46 , both cells are ideal and of fixed emf, the resistor R_(1) has fixed resistance and the resistance of resistor R_(2) can be varied ( but R_(2) is always non zero). Then the electric power delivered to the resistor of resistance R_(1) is independent of the value of resistance R_(2) . Statement II: If potential difference across a fixed resistance is unchanged , the poweer delivered to the resistor remains constant.

The circuit shown in the figure above consists of eight resistors, each with resistance R , and a battery with terminal voltage V and negligible internal resistance. The current flowing through the battery is n/4 V/R , then n is