Chapter 19 – Electric Resistance and Simple Circuits

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In the part of a circuit shown in Figure, the potential difference (V G − V H ) between points G and H will be :
06
Dec
In the part of a circuit shown in Figure, the potential difference (V G − V H ) between points G and H will be : In the part of a circuit shown in figure the potential difference (V G − V H ) between points G and H will be : December 6, 2020 [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 19 - Electric Resistance and Simple Circuits ,
Tags: In the part of a circuit shown in figure , the potential difference (V G − V H ) between points G and H will be : ,
The masses of the three wires of copper are in the ratio 1:3:5` and their lengths are in the ratio `5:3:1`. The ratio of their electrical resistances is
06
Dec
The masses of the three wires of copper are in the ratio 1:3:5` and their lengths are in the ratio `5:3:1`. The ratio of their electrical resistances is The masses of the three wires of copper are in the ratio 1:3:5` and their lengths are in the ratio `5:3:1`. The ratio of their electrical resistances [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 19 - Electric Resistance and Simple Circuits ,
Tags: The masses of the three wires of copper are in the ratio 1:3:5` and their lengths are in the ratio `5:3:1`. The ratio of their electrical resistances is ,
Resistance of a resistor at temperature t^∘C is Rt = R0 (1+αt+βt^2 ), where R0 is the resistance at 0^∘C. The temperature coefficient of resistance at temperature t^∘C is
06
Dec
Resistance of a resistor at temperature t^∘C is Rt = R0 (1+αt+βt^2 ), where R0 is the resistance at 0^∘C. The temperature coefficient of resistance at temperature t^∘C is Resistance of a resistor at temperature t^∘C is Rt = R0 (1+αt+βt^2 ) where R0 is the resistance at 0^∘C. The temperature coefficient of resistance at [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 19 - Electric Resistance and Simple Circuits ,
Tags: Resistance of a resistor at temperature t^∘C is Rt = R0 (1+αt+βt^2 ) , where R0 is the resistance at 0^∘C. The temperature coefficient of resistance at temperature t^∘C is ,
In the circuit shown here, E1 = E2 ​= E3 = 2V and R1 = R2 = 4 ohms. The current flowing between points A and B through battery E2 is :-
06
Dec
In the circuit shown here, E1 = E2 ​= E3 = 2V and R1 = R2 = 4 ohms. The current flowing between points A and B through battery E2 is :- E1 = E2 ​= E3 = 2V and R1 = R2 = 4 ohms. The current flowing between points A and B through [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 19 - Electric Resistance and Simple Circuits ,
Tags: E1 = E2 ​= E3 = 2V and R1 = R2 = 4 ohms. The current flowing between points A and B through battery E2 is :- , In the circuit shown here ,
The equivalent resistance between A and B in the network in fig.,
06
Dec
The equivalent resistance between A and B in the network in fig., The equivalent resistance between A and B in the network in fig. December 6, 2020 Category: Cengage JEE Mains Physics by B.M Sharma , Chapter 19 - Electric Resistance and Simple Circuits ,
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 19 - Electric Resistance and Simple Circuits ,
Tags: The equivalent resistance between A and B in the network in fig. ,
The plot represents the flow of current through a wire at three different times. The ratio of charges flowing through the wire at different times is (second figure)
06
Dec
The plot represents the flow of current through a wire at three different times. The ratio of charges flowing through the wire at different times is (second figure) The plot represents the flow of current through a wire at three different times. The ratio of charges flowing through the wire at different times is (second [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 19 - Electric Resistance and Simple Circuits ,
Tags: The plot represents the flow of current through a wire at three different times. The ratio of charges flowing through the wire at different times is (second figure) ,
A cell of emf E volt with no internal resistance is connected to a wire whose cross section changes. The wire has three sections of equal length. The middle section has a radius a, whereas the radius of the outer two sections is 2a. The ratio of the potential difference across section AB to the potential difference across section CA is
06
Dec
A cell of emf E volt with no internal resistance is connected to a wire whose cross section changes. The wire has three sections of equal length. The middle section has a radius a, whereas the radius of the outer two sections is 2a. The ratio of the potential difference across section AB to the [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 19 - Electric Resistance and Simple Circuits ,
Tags: A cell of emf E volt with no internal resistance is connected to a wire whose cross section changes. The wire has three sections of equal length. The middle section has a radius a , whereas the radius of the outer two sections is 2a. The ratio of the potential difference across section AB to the potential difference across section CA is ,
In the circuit shown in Figure, the magnitudes and the direction of the flow of current, respectively, would be :
06
Dec
In the circuit shown in Figure, the magnitudes and the direction of the flow of current, respectively, would be : In the circuit shown in Figure respectively the magnitudes and the direction of the flow of current would be December 6, 2020 Category: Cengage JEE Mains Physics by B.M Sharma , Chapter 19 - Electric [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 19 - Electric Resistance and Simple Circuits ,
Tags: In the circuit shown in Figure , respectively , the magnitudes and the direction of the flow of current , would be ,
Figure shows two square, X and Y cut from a sheet of metal of uniform thickness t. X and Y have sides of length L and 2L, respectively. The resistances Rx and Ry of the squares are measured between the opposite faces shaded in fig. What is the value of Rx/Ry?
06
Dec
Figure shows two square, X and Y cut from a sheet of metal of uniform thickness t. X and Y have sides of length L and 2L, respectively. The resistances Rx and Ry of the squares are measured between the opposite faces shaded in fig. What is the value of Rx/Ry? Figure shows two square [...]
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 19 - Electric Resistance and Simple Circuits ,
Tags: Figure shows two square , respectively. The resistances Rx and Ry of the squares are measured between the opposite faces shaded in fig. What is the value of Rx/Ry? , X and Y cut from a sheet of metal of uniform thickness t. X and Y have sides of length L and 2L ,
In the circuit shown in Fig, the current I has a value equal to
06
Dec
In the circuit shown in Fig, the current I has a value equal to In the circuit shown in fig the current I has a value equal to December 6, 2020 Category: Cengage JEE Mains Physics by B.M Sharma , Chapter 19 - Electric Resistance and Simple Circuits ,
Posted in: Cengage JEE Mains Physics by B.M Sharma , Chapter 19 - Electric Resistance and Simple Circuits ,
Tags: In the circuit shown in fig , the current I has a value equal to ,