Syllabus Edition

First teaching 2023

First exams 2025

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Sankey Diagrams (SL IB Physics)

Revision Note

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Sankey Diagrams

  • Sankey diagrams are used to represent energy transfers
  • The arrow in a Sankey diagram represents the transfer of energy:
    • The end of the arrow pointing to the right represents the energy that ends up in the desired store (the useful energy output)
    • The end(s) that point(s) down represents 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 going to each store
  • As a result of the conversation of energy:

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 downward, representing energy transferred by heating

Sankey comparison, IGCSE & GCSE Physics revision notes

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 motor.WE Sankey Question image, downloadable IGCSE & GCSE Physics revision notes Determine the amount of wasted energy.

Answer:

Step 1: State the conservation of energy

  • Energy cannot be created or destroyed, it can only be moved 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

Worked example

A small electric car is driven by a 120 watt motor.

The useful power output of the motor is measured to be 33 W. 36 W of power is wasted on friction losses and a further 36 W is wasted on traction losses.

Further power is lost by the electric car during operation. This situation is shown in the diagram below. 

8-1-2-we-sankey-diagram_sl-physics-rn

Determine the remaining power loss for the electric car when it is operating.

Answer:

Step 1: State the conservation of energy

  • Energy cannot be created or destroyed, it can only be moved from one store to another
  • This also applies to power
  • This means that:

Total power in = Useful power out + Friction losses + Traction losses + Wasted power 

Step 2: Rearrange the equation for the wasted power

Wasted power  = Total power in – (Useful power out + Friction losses + Traction losses)

Step 3: Substitute the values from the diagram

120 – (33 + 36 + 36) = 15 W

Exam Tip

  • Drawing good Sankey diagrams takes practice.
  • Start by planning your diagram:
    • How wide are you going to make the input arrow?
    • How wide will the 'useful energy out' arrow need to be?
    • How wide must the 'wasted energy' 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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Ashika

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.