The figure below shows currents in a part of electric circuit. The current i is

(1) 1.7 amp

(2) 3.7 amp

(3) 1.3 amp

(4) 1 amp

Subtopic:  Kirchoff's Current Law |
 90%
From NCERT
PMT - 1981
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In the circuit shown, A and V are ideal ammeter and voltmeter respectively. Reading of the voltmeter will be

(1) 2 V

(2) 1 V

(3) 0.5 V

(4) Zero

Subtopic:  Kirchoff's Voltage Law |
 67%
From NCERT
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The terminal potential difference of a cell when short-circuited is (E = E.M.F. of the cell)

(1) E

(2) E/2

(3) Zero

(4) E/3

Subtopic:  EMF & Terminal Voltage |
 70%
From NCERT
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The potential difference in open circuit for a cell is 2.2 volts. When a 4-ohm resistor is connected between its two electrodes the potential difference becomes 2 volts. The internal resistance of the cell will be :

(1) 1 ohm

(2) 0.2 ohm

(3) 2.5 ohm

(4) 0.4 ohm

Subtopic:  EMF & Terminal Voltage |
 71%
From NCERT
PMT - 1984
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A cell whose e.m.f. is 2 V and internal resistance is 0.1 Ω, is connected with a resistance of 3.9 Ω. The voltage across the cell terminal will be :

(1) 0.50 V

(2) 1.90 V

(3) 1.95 V

(4) 2.00 V

Subtopic:  EMF & Terminal Voltage |
 72%
From NCERT
AIIMS - 2001
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n identical cells each of e.m.f. E and internal resistance r are connected in series. An external resistance R is connected in series to this combination. The current through R is 

(1) nER+nr

(2) nEnR+r

(3) ER+nr

(4) nER+r

Subtopic:  Grouping of Cells |
 81%
From NCERT
PMT - 2002
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A cell of internal resistance r is connected to an external resistance R. The current will be maximum in R, if :

(1) R = r

(2) R < r

(3) R > r

(4) None of these

Subtopic:  EMF & Terminal Voltage |
From NCERT
PMT - 1982
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Two identical cells send the same current in 2 Ω resistance, whether connected in series or in parallel. The internal resistance of the cell should be 

(1) 1 Ω

(2) 2 Ω

(3) 12Ω

(4) 2.5 Ω

Subtopic:  Grouping of Cells |
 67%
From NCERT
PMT - 2002
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The internal resistances of the two cells shown are 0.1 Ω and 0.3 Ω. If R = 0.2 Ω, the potential difference across the cell :

(1) B will be zero

(2) A will be zero

(3) A and B will be 2V

(4) A will be > 2V and B will be < 2V

Subtopic:  Kirchoff's Voltage Law |
From NCERT
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The figure shows a network of currents. The magnitude of currents is shown here. The current i will be 

(1) 3 A

(2) 13 A

(3) 23 A

(4) – 3 A

Subtopic:  Kirchoff's Current Law |
 84%
From NCERT
PMT - 1995
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