The Conditions for Fusion (Edexcel IGCSE Physics (Modular))
Revision Note
Written by: Ashika
Reviewed by: Caroline Carroll
Fusion in stars
Stars are huge balls of (mostly) hydrogen gas
In the centre of a star, hydrogen nuclei undergo nuclear fusion to form helium nuclei
An equation for a possible fusion reaction is:
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Where
(deuterium) and 
(tritium) are both isotopes of hydrogenThese are formed through other fusion reactions in the star
Fusion reactions release a huge amount of energy
The heat from fusion provides a pressure that prevents the star from collapsing under its own gravity
The outwards and inwards forces within a star are in equilibrium. The centre red circle represents the star's core and the orange circle represents the star's outer layers
In larger stars where the temperature gets hot enough, helium nuclei can fuse into heavier elements
Examiner Tips and Tricks
It is useful to remember that hydrogen is the fuel within stars, but the details of the reaction between deuterium and tritium is not required at this level.
The conditions for fusion
Nuclear fusion requires
extremely high temperatures
extremely high pressures
These conditions are required because of the electrostatic repulsion between protons
Since protons have a positive charge, they repel each other
Therefore, to overcome this repulsion, protons must have very high kinetic energies to allow them to get close enough to fuse
Hydrogen nuclei are positively charged protons which repel one another, making it difficult to achieve fusion under normal conditions
For hydrogen nuclei to travel at such speeds, the gas has to be heated to millions of degrees Celsius
Such high temperatures are usually only achievable in the cores of stars
In regular conditions, such as on Earth, the possibility of collisions between nuclei which result in fusion is very low
To increase the number of collisions (and hence fusion reactions) that occur between nuclei, high densities (and hence pressures) are also needed
Worked Example
An example of a hydrogen fusion reaction which takes place in stars is shown here.
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Which of the following is a valid reason as to why hydrogen fusion is not currently possible on Earth?
A. Hydrogen fusion produces dangerous radioactive waste
B. Hydrogen nuclei require very high temperature to fuse together
C. Hydrogen is a rare element that would be difficult to get large amounts of
D. Hydrogen fusion does not produce enough energy to be commercially viable
ANSWER: B
Hydrogen nuclei have positive charges
So two hydrogen nuclei would have a repulsive force between them
High temperatures are required to give the nuclei enough energy to overcome the repulsive force
The answer is not A because the product of the hydrogen fusion shown in the reaction is helium
Helium is an inert gas, it is not dangerous or radioactive
The answer is not C because hydrogen is a very abundant element
It is the most common element in the universe
The answer is not D because hydrogen fusion would produce a huge amount of energy
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