Calculating efficiency is like figuring out how well your toy car uses its energy to zoom around the room.
Imagine you have a toy car that needs energy to move. You give it some batteries (that’s the input energy), and it moves across the floor (that’s the useful output energy). Sometimes, not all the energy from the batteries goes into making the toy car go, some of it is lost as heat or noise.
To find out how well your toy car uses its energy, you do a simple calculation:
Efficiency = (Useful Output Energy ÷ Input Energy) × 100
This gives you a percentage, which tells you how much of the energy was actually used for moving, and how much was lost.
For example, if your toy car uses 20 joules of energy to move, but needed 40 joules from the batteries, its efficiency would be:
(20 ÷ 40) × 100 = 50%
So half the energy was used for moving, and the other half was lost as heat or sound.
It’s like eating a big sandwich and only using half of it to run around, the rest is just extra!
Examples
- A car engine takes in 200 joules of fuel energy and produces 140 joules of motion energy.
- A kettle transfers 60 joules of electrical energy to the water, with 15 joules lost as heat.
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See also
- How Does GCSE Physics - Efficiency | Energy & Power (2026/27 exams) Work?
- How Does Circular Motion | GCSE Physics | Doodle Science Work?
- How Does Charge, Current and Voltage | GCSE Physics | Doodle Science Work?
- How Does GCSE Physics Revision "Calculating Power Work?
- How Does GCSE Physics – Power and Efficiency Calculations Work?