The Life Cycle of Larger Stars (Edexcel IGCSE Science (Double Award))

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The life cycle of larger stars

  • After the main sequence, a high-mass star finishes its life cycle in the following evolutionary stages:

Red supergiant → supernova → neutron star (or black hole)

  • The key differences between a lower mass and higher mass star at this stage are:

    • A higher mass star will stay on the main sequence for a shorter time before it becomes a red supergiant

    • A lower mass star fuses helium into heavy elements, such as carbon, whereas a higher mass star fuses helium into even heavier elements, such as iron

Red supergiant

  • After several million years, the hydrogen causing the fusion reactions in the star will begin to run out

  • Once this happens, the fusion reactions in the core will start to die down

  • The star will begin to fuse helium which causes the outer part of the star to expand

  • As the star expands, its surface cools and it becomes a red supergiant

Supernova

  • Once the fusion reactions inside the red supergiant cannot continue, the core of the star will collapse suddenly and cause a gigantic explosion called a supernova

  • At the centre of this explosion, a dense body called a neutron star will form

  • The outer remnants of the star are ejected into space forming new clouds of dust and gas (nebula)

    • The heaviest elements are formed during a supernova, and these are ejected into space

    • These nebulae may form new planetary systems

Neutron star (or black hole)

  • In the case of the most massive stars, the neutron star that forms at the centre will continue to collapse under the force of gravity until it forms a black hole

  • A black hole is an extremely dense point in space that not even light can escape from

The life cycle of a high-mass star

Lifecycle of Larger Mass Stars, downloadable IGCSE & GCSE Physics revision notes

The life cycle of a star much larger than our Sun

Examiner Tips and Tricks

Make sure you remember the life cycle for a high-mass star and that you can describe the sequence logically in case a 6-marker comes up in the exam!

Ensure you can clearly remember the end stages for a high-mass star (red supergiant, supernova, neutron star/black hole) as this is different for a star that is a similar size to the Sun!

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Ashika

Author: Ashika

Expertise: Physics Project Lead

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.