Efficiency (Edexcel IGCSE Physics)

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Physics

Efficiency

The efficiency of a system is a measure of the amount of wasted energy in an energy transfer

Efficiency is defined as:

The ratio of the useful energy output from a system to its total energy output

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

Efficiency is represented as a percentage, and can be calculated using the equation:

$efficiency = \frac{useful energy output}{total energy output} \times 100 %$

Worked example

The blades of a fan are turned by an electric motor. In one second, 300 J of energy is transferred electrically from the mains supply. 85 J is wasted due to friction and sound.

Calculate the efficiency of the motor.

Step 1: List the known quantities

- Total energy input = 300 J
- Total wasted energy = 85 J

Step 2: State the equation

$efficiency = \frac{useful energy output}{total energy output} \times 100 %$

Step 3: Determine total energy output

- Due to the conservation of energy:

total energy input = total energy output

- Therefore, total energy output = 300 J

Step 4: Calculate the useful energy output

- Due to conservation of energy

Total energy output = useful energy output + wasted energy

Useful energy output = total energy output − wasted energy

Useful energy output = 300 − 85

Useful energy output = 215 J

Step 5: Substitute these values into the efficiency equation

$efficiency = \frac{useful energy output}{total energy output} \times 100 %$

$efficiency = \frac{215}{300} \times 100 %$

$efficiency = 72 %$

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 (only %)

Sankey Diagrams

Sankey diagrams can be used to represent energy transfers
- Sankey diagrams are characterised by the splitting arrows that show the proportions of the energy transfers taking place

The different parts of the arrow in a Sankey diagram represent the different energy transfers:
- The left-hand side of the arrow (the flat end) represents the energy transferred into the system
- The straight arrow pointing to the right represents the energy that ends up in the desired store; this is the useful energy output
- The arrows that bend away represent the wasted energy

8-1-2-sankey-diagram-demonstration_sl-physics-rn

Total energy in, wasted energy and useful energy out shown on a Sankey diagram

The width of each arrow is proportional to the amount of energy being transferred
As a result of the conversation of energy:

Total energy in = total energy out

Total energy in = Useful energy out + Wasted energy

A Sankey diagram for a modern efficient light bulb will look very different from that for an old filament light bulb
A more efficient light bulb has less wasted energy
- This is shown by the smaller arrow downwards representing the heat energy

cie-igcse-1-7-4-phy-rn-sankey-comparison-new

Sankey diagram for modern vs. old filament light bulb

Worked example

An electric motor is used to lift a weight. The diagram represents the energy transfers in the system.

WE Sankey Question image, downloadable IGCSE & GCSE Physics revision notes

Calculate the amount of wasted energy.

Step 1: State the conservation of energy

- Energy cannot be created or destroyed, it can only be transferred from one store to another
- This means that:

total energy in = useful energy out + wasted energy

Step 2: Rearrange the equation for the wasted energy

wasted energy = total energy in – useful energy out

Step 3: Substitute the values from the diagram

500 – 120 = 380 J

Exam Tip

Drawing good Sankey diagrams takes practice.
Start by planning your diagram using graph paper or a ruler:
- How many squares or mm wide will you make the input arrow?
- How many squares or mm wide will the useful energy out arrow need to be?
- How many squares or mm wide must the wasted arrow be?
Next, start drawing the diagram one step at a time:
- Draw the left-hand side of the arrow, along with the line going across the top
- Next add the useful energy out arrow, making sure it is the correct width
- Now carefully mark the start and end of the wasted arrow – make sure your marks are the correct distance apart
- Finally join the markings together, finishing the wasted energy arrow

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Efficiency (Edexcel IGCSE Physics)

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Author: Leander