Unemployment is the number of people who want a job, are available to work, but cannot find one. It is usually expressed as a percentage of the labour force.
Formula: U = (Ut ÷ L) × 100%
Where Ut = unemployed people, L = total labour force.
In a perfectly functioning labour market, the quantity of labour demanded (Ld) equals the quantity supplied (Ls) at the equilibrium wage (we). The resulting unemployment is the natural rate (Un).
| Factor | Description |
|---|---|
| Supply of Labour (Ls) | People willing to work at a given wage. |
| Demand for Labour (Ld) | Companies wanting workers at a given wage. |
| Equilibrium Wage (we) | Wage where Ls = Ld. |
Analogy: Think of a dance floor where the number of dancers (workers) matches the number of dance spots (jobs). If the floor is full, no one is left standing idle.
Mathematical representation: \$Un = \frac{Ld - Ls}{Ld} \times 100\%\$ at equilibrium.
Occurs when the labour market is not in equilibrium – either supply exceeds demand or vice versa.
Example: During a recession, many firms cut back, so Ld drops. The market temporarily has excess supply, leading to higher unemployment.
Block formula for unemployment rate in disequilibrium: \$U = \frac{U_t}{L} \times 100\%\$ where Ut includes all unemployed types.
Hysteresis means that a temporary rise in unemployment can lead to a permanent increase in the natural rate.
Analogy: A plant that loses leaves during a drought may never fully regain its original foliage, even after rain returns.
Key equation: \$Un^{new} = Un^{old} + \Delta U_h\$ where ΔUh is the hysteresis effect.
When answering exam questions on unemployment:
Tip: Use the phrase “excess supply of labour” to describe high unemployment, and “excess demand for labour” for low unemployment.