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   Written by: CHIU Hung-yu      March 2010

  1. Atmospheric drag could slow down the motion of a satellite when its orbit is low enough to be affected by the friction of Earth's atmosphere. A low Earth-orbiting satellite is often placed just above the Earth's atmosphere (Fig.1), where there is almost no air to drag on the satellite and reduce its speed. For example, the Hubble Space Telescope (HST) has a low altitude orbit and operates at an altitude of 610 km with an orbital period of 97 minutes.

    satellite drag inactive solar activity
    Fig.1  Orbit of a low Earth-orbiting satellite (not to scale)

    The sunspot cycle 24 has begun in January 2010 and the solar activity will increase gradually. When there are intense solar activities bringing intense solar winds towards the earth, the upper atmosphere of the earth will heat up and expand to enclose the orbits of some low Earth-orbiting satellites in it (Fig.2). It will produce greater frictional drag against the motion of the satellite.

    satellite drag solar active
    Fig.2  Intense solar activities cause the expansion of the earth's upper atmosphere (atmosphere exaggerated for ease of explanation.)

    The drag would slow down the orbiting speed of the satellite. It will cause the satellite to de-orbit, decrease in altitude and eventually burn up in the atmosphere through its voyage back to the earth by gravitational force. Re-boosts in advance to maintain its orbit could extend the operational period of a satellite if it has enough fuel.

    Furthermore, the atmospheric density and composition in the lower atmosphere were also dependent on local time besides the solar activity. Scientists found that the atmospheric density below 200km was higher at nighttime. Thus, satellites operating at very low altitude orbits would experience even more frictional drag at nighttime.

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  1. "Satellite Drag and the Hubble Space Telescope", NASA.
  2. "An Upper Atmospheric Model for Solar Minimum Conditions", by V.P. Bhatnagar and A.P. Mitra, Journal of the Atmospheric Sciences, Volume 23, Issue 2 (March 1966) pp. 233244.
  3. "Solar Cycle 24 Begins", NASA.
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Last revision date: <21 Feb 2014>