Draw the circuit for experimental verification of Ohm's law using a source of variable `DC` voltage, a main resistance of `100 Omega`, two galvanometers and two resistances of value `10^6 Omega ` and `10^-3Omega` respectively. Clearly show the positions of the voltmeter and the ammeter.

Draw the circuit for experimental verfication of Ohm's law using a source of variable DC voltage, a main resistance of 100 (Omega) , two galvanometers and two resistances of values 10^(6) Omega and 10^-3 respectively. Clearly show the positions of the voltmeter and the ammeter.

two galvanometers of resistance 100Omega and 50Omega , are 10^(-8)A//"div and "2 xx 10^(-5) A/div respectively. In which case the voltage sensitivity is more ?

A galvanometer vaving 50 divisions provided with a variable shunt S is used to measure the current when conneted in series with a resistance of 90 Omega and a battery of internal resistance 10 Omega . It is observed that when the snt resistaces are 10 Omega & 70 Omega respectively, the deflection are respectively 9 and 30 dividions. What is the resistance of the galvanometer ? Further, if the full scale deflection of the galvanometer movement require 200 mA. find the emf of the cell.

To send 10% of the main current through a moving coil galvanometer of resistance 9 Omega , shunt S required is

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

The figure shows a source (a battery) with an emf E of 12 V with an internal resistance r of 2Omega and an external resistance of 4Omega is added to complete the circuit. What are the voltmeter and ammeter readings

The ammeter (A) and voltmeter (V) in the given circuit are ideal but the galvanometer has a resistance of 2 Omega In steady state

A galvanometer having 50 divisions provided with a variable shunt S is used to measure the current when connected in series with a resistance of 90 Omega and a battery of internal resistance 10 Omega . It is observed that when the shunt resistances are 10 Oemga and 50 Omega , the deflections are, respectively, 9 and 30 divisions. What is the resistance of the galvanometer

A galvanometer of resistance 70 Omega , is converted to an ammeter by a shunt resistance r_(3) = 0.03 Omega . The value of its resistance will become

A cell of emf 3.4 V and internal resistance 3 Omega is connected to an ammeter having resistance 2Omega and to an external resistance of 100Omega . When a voltmeter is connected across the 100 Omega resistance, the ammeter reading is 0.04 A . Find the voltage reading by the voltmeter and its resistance. Had the voltmeter been an ideal one what would have been its reading?