Ohm's Law
- Ohm’s law states that for a conductor at a constant temperature, the current through it is proportional to the potential difference across it
- Constant temperature implies constant resistance
- This is shown the equation below:
Ohm’s law
- The relation between potential difference across an electrical component (in this case a fixed resistor) and the current can be investigated through a circuit such as the one below
Circuit for plotting graphs of current against voltage
- By adjusting the resistance on the variable resistor, the current and potential difference will vary in the circuit. Measuring the variation of current with potential difference through the fixed resistor will produce the straight line graph below
Circuit for plotting graphs of current against voltage
- Since the gradient is constant, the resistance R of the resistor can be calculated by using 1 ÷ gradient of the graph
- An electrical component obeys Ohm’s law if its graph of current against potential difference is a straight line through the origin
- A resistor obeys Ohm’s law
- A filament lamp does not obey Ohm’s law
- This applies to any metal wires, provided that the current isn’t large enough to increase their temperature
Worked example
The current flowing through a component varies with the potential difference V across it as shown.
Which graph best represents how the resistance R varies with V?
Examiner Tip
- In maths, the gradient is the slope of the graph
- The graphs below show a summary of how the slope of the graph represents the gradient
Graphs showing varying gradients