Ohm's Law
- Ohm's law states that:
For a component at a constant temperature, the current through it is proportional to the potential difference across it
- It is defined by the equation:
- Where:
- V = potential difference (V)
- I = current (A)
- R = resistance (Ω)
- An electrical component obeys Ohm’s law if its graph of current against potential difference is a straight line through the origin
- A fixed resistor obeys Ohm’s law i.e. it is an ohmic component
- A filament lamp does not obey Ohm’s law i.e. it is a non-ohmic component
The current-voltage graph for a fixed resistor is a straight line through the origin. The fixed resistor is an ohmic component
- The resistance of an ohmic component can be calculated from the gradient of a current-voltage graph, since resistance is equal to
- If current is on the y-axis and potential difference is on the x-axis, then
- If potential difference is on the y-axis and current is on the x-axis, then
- Any metal conductor at a constant temperature can be considered an ohmic device
- This is likely to be a fixed resistance
- Non-ohmic devices include:
- Lamps
- LEDs
- Thermistors
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?
Answer: D
Step 1: Write down the equation for the resistance R
Step 2: Link the resistance to the gradient of the graph
Step 3: Identify the gradient of different sections of the graph and use it to deduce what happens to the resistance
- The first straight section of the graph has a constant gradient
- So the resistance remains constant
- The second section is curved and the steepness of the line increases, so the gradient increases
- So the resistance decreases
Step 4: Identify the correct graph out of the four proposed
- Constant resistance is indicated by a straight horizontal line
- So either C or D are correct
- Decreasing resistance is indicated by a line curving downwards
- So only D is correct
Exam Tip
When solving problems about Ohm's law you will often deal with graphs. You need to be confident in identifying and calculating their gradients.
- In maths, the gradient is the slope of the graph (i.e. )
- The graphs below show a summary of how the slope of the graph represents the gradient
Although the Ohm's law equation is not given on your data sheet, you can see it is just rearranging to make V the subject.