Assetion : In the following circuit emf ...

Assetion : In the following circuit emf is `2 V` and internal resistance of the cell is `1 Omega` and `R = 1 Omega`, then reading of the voltmeter is `1 V`.
Reason : `V = E - ir` where `E = 2 v, i= (2)/(2) = 1 A` and `r = 1 Omega`

A

If both assertion and reason are ture and reason is the correct explanation of assertion

B

If both assertion and reason are true but reason is not the correct explanation of assertion

C

If assertion is true but reason is false

D

If both assertion and reson are false.

Text Solution

Verified by Experts

The correct Answer is:

A

V = E - l (R + r)

Similar Questions

Explore conceptually related problems

In the circuit shown in figure ammeter and voltmeter are ideal. If E=4 V,R=9Omega and r=1Omega then readings of ammeter and voltmeter are

in the circuit shown in the figure, each battery is of 5 V and has an internal resistance of 0.2 Omega What is the reading of the ideal voltmeter V

In the circuit shown in fig. the cell has emf 10V and internal resistance 1 Omega

In the given circuit the internal resistance of the 18 V cell is negligible. If R_(1)=400 Omega and the reading of an ideal voltmeter across R_(4) is 5V, then the value of R_(2) will be :

In the circuit shown below, E is a battery of emf 6 V and internal resistance 1Omega . Find the reading of the ammeter A. if it has negligible resistance :

Eight cells marked 1 to 8, each of emf 5 V and internal resistance 0.2 Omega are connected as shown. What is the reading of ideal voltmeter ?

The cell has an emf of 2 V and the internal resistance of this cell is 0.1 Omega , it is connected to resistance of 3.9 Omega , the voltage across the cell will be

In the following circuit , E_1 = 4V, R_1 = 2 Omega, E_2 = 6 V, R_2 = 2Omega, and R_3 = 4Omega. Find the currents i_1 and i_2

The internal resistance of a 2.1 V cell which gives a current of 0.2A through a resistance of 10 Omega is

Assetion : In the following circuit emf is `2 V` and internal resistance of the cell is `1 Omega` and `R = 1 Omega`, then reading of the voltmeter is `1 V`. Reason : `V = E - ir` where `E = 2 v, i= (2)/(2) = 1 A` and `r = 1 Omega`

Text Solution

Similar Questions

Recommended Questions

Assetion : In the following circuit emf is `2 V` and internal resistance of the cell is `1 Omega` and `R = 1 Omega`, then reading of the voltmeter is `1 V`.
Reason : `V = E - ir` where `E = 2 v, i= (2)/(2) = 1 A` and `r = 1 Omega`