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The solar system - CCEAArtificial satellites and orbital motion

The solar system consists of the Sun surrounded by planets, comets and asteroids in orbit. Most planets in the solar system have moons in orbit around them.

Part of Combined ScienceSpace physics

Artificial satellites and orbital motion

Types of orbit. Image shows a satellite in geostationary orbit and a satellite in polar orbit around Earth.
Figure caption,
Types of orbit around Earth

Gravity is the force needed to maintain the orbit of planets, asteroids and comets around a star and moons and artificial satellites around a planet.

An artificial satellite is a man-made body placed in orbit round the earth or another planet in order to collect information about it or for communication purposes.

The International Space Station is an example of an artificial satellite.

Key Point

Artificial satellites can be used for:

  • communications 鈥 satellite television and phone calls;
  • Earth observation - including weather forecasting, tracking storms and pollution, spying and satellite photography;
  • navigation - including the Global Positioning System (GPS);
  • astronomy 鈥 looking into outer space from our solar system.

Examples of artificial satellites orbits include:

  • polar orbits;
  • geostationary orbits.

Polar orbits take the satellites over the Earth鈥檚 poles.

The satellites travel very close to the Earth - as low as 200 km above sea level, so they must travel at very high speeds - nearly 8000 m/s.

Polar orbits are often used for earth-mapping, as well as for some weather satellites.

Geostationary satellites take 24 hours to orbit the Earth, so the satellite appears to remain in the same part of the sky when viewed from the ground.

These orbits are much higher than polar orbits (typically 36,000 km) so the satellites travel more slowly (around 3 km/s).

Geostationary orbits are used for communication and broadcast satellites.

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