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Formation of the Sun and other stars

The Solar System was formed around 4.6 billion years ago from a giant cloud called a nebula, mainly made up of hydrogen gas and dust.

The nebula collapsed under its own gravity and, as it did, temperature and pressure increased.

It became denser and rotated more rapidly, spiralling inwards.

The hot core in the centre is called a protostar.

The collapsing and joining together of gas and dust under gravity is called accretion.

Eventually gravity compressed the hydrogen so much that the temperature reached about 15 million 0C.

At this temperature and pressure began and our Sun was born.

It is therefore called a star.

Brian Cox explains how the Earth was formed

In fusion reactions:

  • hydrogen fuse together to form helium nuclei;
  • energy is released and radiates outwards.

A star, like the Sun, in its period, is stable - gravity tries to pull it inwards, and radiation pressure from the nuclear reactions tends to expand it outwards, but these forces are balanced.

In other words, the gravitational collapse inwards is balanced by the outward expansion due to heat and radiation pressure from the fusion reactions.

The Sun is expected to be a main sequence star for billions of years.

A diagram showing a star in its main sequence. Red arrows pointing away from the centre show how gas pressure pushes outward. Green arrows pointing inward show how gravity pulls material inward.
Figure caption,
The Sun in equilibrium - the force of gravity inwards is balanced by radiation pressure outwards