Potential difference (p.d.) is the amount of work done by an external source to move a unit charge from one point to another in an electric circuit.
Mathematically, it is expressed as:
\$V = \frac{W}{q}\$
where V is the potential difference in volts (V), W is the work done in joules (J), and q is the charge in coulombs (C).
Because we use a unit charge (1 C), the formula simplifies to:
\$V = W\$
so the potential difference is numerically equal to the work done per coulomb.
Think of an electric circuit like a water pipe.
- The pressure difference between two points in the pipe pushes water through.
- In an electric circuit, the potential difference (voltage) pushes electrons through the wires.
Just as a higher pressure difference means more water can flow, a higher potential difference means more current can flow through a component.
If a charge of 2 C moves through a component with a potential difference of 3 V, the work done is:
\$W = V \times q = 3\,\text{V} \times 2\,\text{C} = 6\,\text{J}\$
Since we are interested in the work per unit charge, we divide by the charge:
\$V = \frac{W}{q} = \frac{6\,\text{J}}{2\,\text{C}} = 3\,\text{V}\$
This confirms that the potential difference is 3 V.
| Component | Typical p.d. (V) | Notes |
|---|---|---|
| AA Battery | 1.5 V | Standard alkaline battery |
| USB Charger | 5 V | Common for phones and tablets |
| Mains Supply (USA) | 120 V | Standard household voltage |
| Mains Supply (UK) | 230 V | Standard household voltage |