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Ohm鈥檚 law, electric power and energy - CCEAPrescribed practical P7 - Section 2

Ohm鈥檚 Law states that the voltage across a conductor is directly proportional to the current flowing through it, provided all physical conditions, such as temperature, remain constant.

Part of Physics (Single Science)Electricity

Prescribed practical P7 - Section 2

Apparatus

1m length of constantan wire, a metre rule, a low voltage power pack, a variable resistor, a voltmeter, an ammeter, connecting leads, a switch, 2 crocodile clips, Sellotape.

Circuit diagram

Circuit diagram for Ohm's law experiement

Method

  1. Set up the circuit, as shown above.
  2. Adjust the variable resistor until the current on the Ammeter is 0.1 A. Record the current in a suitable table.
  3. Read the corresponding value of voltage across the wire on the voltmeter and record in the table.
  4. Turn the switch off between all readings to prevent the temperature of the wire rising.
  5. Turn on again. Ensure that the current is still 0.1 A and repeat the voltage reading. Calculate the average voltage.
  6. Repeat the procedure for six values of current up to 0.7 A.

Avoiding errors

The temperature of the wire must be kept constant.

Whenever a current flows through a conductor there is a heating effect.

Electrical energy is converted to heat energy.

To ensure the temperature of the wire does not increase, switch off between readings and keep the current as small as possible.

Read the ammeter and voltmeter accurately by reading the scale from directly above the pointer or use digital instruments.

Results

Current I in AVoltage V in VVoltage V in VVoltage V in V
0.0Reading 1Reading 2Average voltage
0.1Reading 1Reading 2Average voltage
0.2Reading 1Reading 2Average voltage
0.3Reading 1Reading 2Average voltage
0.4Reading 1Reading 2Average voltage
0.5Reading 1Reading 2Average voltage
0.6Reading 1Reading 2Average voltage
0.7Reading 1Reading 2Average voltage
Current I in A
Voltage V in V
Voltage V in V
Voltage V in V
Current I in A0.0
Voltage V in VReading 1
Voltage V in VReading 2
Voltage V in VAverage voltage
Current I in A0.1
Voltage V in VReading 1
Voltage V in VReading 2
Voltage V in VAverage voltage
Current I in A0.2
Voltage V in VReading 1
Voltage V in VReading 2
Voltage V in VAverage voltage
Current I in A0.3
Voltage V in VReading 1
Voltage V in VReading 2
Voltage V in VAverage voltage
Current I in A0.4
Voltage V in VReading 1
Voltage V in VReading 2
Voltage V in VAverage voltage
Current I in A0.5
Voltage V in VReading 1
Voltage V in VReading 2
Voltage V in VAverage voltage
Current I in A0.6
Voltage V in VReading 1
Voltage V in VReading 2
Voltage V in VAverage voltage
Current I in A0.7
Voltage V in VReading 1
Voltage V in VReading 2
Voltage V in VAverage voltage

Graph

Ohm's law voltage and current graph