The resistance of a wire is \(R\) ohm. If it is melted and stretched to \(n\) times its original length, its new resistance will be:
1. \(nR\)
2. \(\frac{R}{n}\)
3. \(n^2R\)
4. \(\frac{R}{n^2}\)
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A battery consists of a variable number \('n'\) of identical cells having internal resistances connected in series. The terminals of battery are short circuited and the current \(i\) is measured. The graph below that shows the relationship between \(i\) and \(n\) is:
1. | 2. | ||
3. | 4. |
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The effective resistance between points P and Q of the electrical circuit shown in the figure is:
1.
2.
3.
4.
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The potential difference across 8 ohms resistance is 48 volts as shown in the figure below. The value of potential difference across X and Y points will be:
1. 160 volt
2. 128 volt
3. 80 volt
4. 62 volt
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A resistance of 4 Ω and a wire of length 5 metres and resistance 5 Ω are joined in series and connected to a cell of e.m.f. 10 V and internal resistance 1 Ω. A parallel combination of two identical cells is balanced across 300 cm of the wire. The e.m.f. E of each cell is:
1. 1.5 V
2. 3.0 V
3. 0.67 V
4. 1.33 V
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The current in the arm CD of the circuit will be:
1.
2.
3.
4.
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A battery of e.m.f. E and internal resistance r is connected to a variable resistor R as shown below. Which one of the following is true?
1. | Potential difference across the terminals of the battery is maximum when R = r. |
2. | Power delivered to the resistor is maximum when R = r. |
3. | Current in the circuit is maximum when R = r. |
4. | Current in the circuit is maximum when R >> r. |
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The total current supplied to the circuit by the battery is:
1. 1 A
2. 2 A
3. 4 A
4. 6 A
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Equivalent resistance across terminals A and B will be:
1. 1 Ω
2. 2 Ω
3. 3 Ω
4. 4 Ω
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What is the equivalent resistance of the circuit?
1. 6 Ω
2. 7 Ω
3. 8 Ω
4. 9 Ω
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