# 1.1.15 Efficiency

### Efficiency

• The efficiency of a system is a measure of how well energy is transferred in a system
• Efficiency is defined as:

The ratio of the useful power or energy transfer output from a system to its total power or energy transfer input

• If a system has high efficiency, this means most of the energy transferred is useful
• If a system has low efficiency, this means most of the energy transferred is wasted
• Determining which type of energy is useful or wasted depends on the system
• When electrical energy is converted to light in a lightbulb, the light energy is useful and the heat energy produced is wasted
• When electrical energy is converted to heat for a heater, the heat energy is useful and the sound energy produced is wasted
• Efficiency is represented as a percentage, and can be calculated using the equation: • The energy can be of any form e.g. gravitational potential energy, kinetic energy
• The efficiency equation can also be written in terms of power: • Where power is defined as the energy transferred per unit of time #### Worked Example

An electric motor has an efficiency of 35 %. It lifts a 7.2 kg load through a height of 5 m in 3 s.

Calculate the power of the motor.

Step 1: Write down the efficiency equation Step 2: Rearrange for the power input Step 3: Calculate the power output

• The power output is equal to energy ÷ time
• The electric motor transferred electric energy into gravitational potential energy to lift the load

Gravitational potential energy = mgh = 7.2 × 9.81 × 5 = 353.16 J

Power = 353.16 ÷ 3 = 117.72 W

Step 4: Substitute values into power input equation #### Exam Tip

Efficiency can be in a ratio (between 0 and 1) or percentage format (between 0 and 100%)

If the question asks for efficiency as a ratio, give your answer as a fraction or decimal.

If the answer is required as a percentage, remember to multiply the ratio by 100 to convert it: if the ratio = 0.25, percentage = 0.25 × 100 = 25 %

Remember that efficiency has no units ### Author: Ashika

Ashika graduated with a first-class Physics degree from Manchester University and, having worked as a software engineer, focused on Physics education, creating engaging content to help students across all levels. Now an experienced GCSE and A Level Physics and Maths tutor, Ashika helps to grow and improve our Physics resources.
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