Hydraulics | GCSE Physics | Doodle Science

Key Concept: Hydraulics as Force Multipliers

Hydraulics may sound complicated, but they’re essentially force multipliers. They work because:

• Liquids are virtually incompressible.
• When you apply pressure to a liquid, it is transmitted equally in all directions.

Analogy:

Think of a balloon with holes. Squeeze the top, and water squirts out of all holes — showing how the pressure is shared throughout the liquid.

Important Formula

Pressure (P)=Force (F)Cross-sectional Area (A)\text{Pressure (P)} = \frac{\text{Force (F)}}{\text{Cross-sectional Area (A)}}Pressure (P)=Cross-sectional Area (A)Force (F)​

• Pressure → measured in Pascals (Pa)
• Force → measured in Newtons (N)
• Area → measured in square metres (m²)

Hydraulic System Example

• Input piston area: 0.001 m²
• Force applied: 15 N
• Pressure generated: P=150.001=15,000 PaP = \frac{15}{0.001} = 15{,}000 \text{ Pa}P=0.00115​=15,000 Pa
• Output piston area: 0.01 m²
• Force output: F=P×A=15,000×0.01=150 NF = P \times A = 15{,}000 \times 0.01 = 150 \text{ N}F=P×A=15,000×0.01=150 N

So, a small force on a small piston creates a larger force on a larger piston — this is how hydraulic multipliers work!

Real-Life Applications

• Car braking systems
• Car jacks
• Aircraft landing gear

These systems allow small effort forces to generate large output forces, making heavy tasks easier — like changing a tyre!

References:

1. BBC Bitesize – GCSE Physics
2. CGP GCSE Physics AQA Revision Guide