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Questions on EMF and internal resistance

Q4. A battery of e.m.f. and internal resistance r is connected in series with a variable resistor R as shown in the diagram. A voltmeter is connected as shown.

(a)

(i) State what is meant by the e.m.f of a battery
The EMF is the energy provided by the battery per unit charge [OR potential difference across battery when no current flows ]
(ii) The reading V on the voltmeter is the voltage across R.
Why is V less than ?
When the current flows, work is done inside the battery
to overcome the resistance (hence V <)

(3)

(b) In order to measure and r, an ammeter is used in the circuit, as shown below.

The value of R is decreased in steps and at each step the readings V and I on the voltmeter and ammeter, respectively, are recorded. These are shown in the table.

Reading on voltmeter/V

Reading on ammeter/A

4.0

0.07

3.0

0.14

2.0

0.21

1.0

0.28

(i) Plot a graph of V (on y axis) against I (on x axis) and draw the best straight line through the points.

suitable scale for I

four correct points

best fit straight line

(ii) Determine the values of and r from the graph, explaining your method.
= Ir + V so, V = – rI + This is an equation of a straight line (Y = mx + c)

intercept = = 5 V

gradient = –r

so, r = 14.(2)

(8)
(Total 11 marks)

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Questions on EMF and internal resistance

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