RP06: Internal resistance and emf Flashcards

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1
Q

What is a source’s internal resistance?

A

A source’s internal resistance is the resistance of the materials inside the source. It is equal to the lost volts per unit current in the source.

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2
Q

What is the emf of a power source?

A

A power supply’s emf is the work done by the source per unit change. It is equal to the potential difference across the source when no current flows.

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3
Q

State the equation used to calculate a battery’s emf from its current, load resistance and internal resistance.

A

Emf= I(R+r)

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4
Q

What is meant by the phrase ‘lost volts’?

A

The lost volts of a battery is the difference between the battery’s emf and its terminal potential difference.

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5
Q

How do you calculate a battery’s emf from its terminal potential difference, current and internal resistance?

A

Emf = V + Ir

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6
Q

Demonstrate how the equation of a V-I graph for a source with internal resistance r can be obtained.

A

Emf= V + Ir
V= -rI + emf
Which is in the form y=mx+c

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7
Q

How can you find the internal resistance of a battery from a graph of V against I?

A

V= -rI + emf
y = mx + c
The internal resistance is the gradient of the graph.

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8
Q

How can you find the emf of a battery from a graph of V against I?

A

V= -Ir + emf
The emf is the y-intercept of the graph

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9
Q

Why should the battery be disconnected between readings?

A

The temperature of the circuit should remain constant throughout the experiment, so the resistance in the circuit remains constant. Disconnecting the battery when not needed means less heating.

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10
Q

Why should you avoid using a rechargeable battery/cell when carrying out this experiment?

A

Rechargeable power sources have very low internal resistance which would be hard to measure in this experiment.

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11
Q

Why should a new cell/battery be used when carrying out this experiment?

A

Run down cells and batteries have internal resistances that may fluctuate throughout the experiment. Using a new source will result in a more consistent value that me therefore be more accurately calculated

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12
Q

What safety precautions should be taken when carrying out this experiment?

A

If connected for long periods of time, the battery and circuitry can become hot. Avoid touching bare metal contacts and disconnect the battery when readings are not being taken.

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