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The satellites are pinpoint, while stars have created star trails due to Earth's rotation. A geostationary orbit, also referred to as a geosynchronous equatorial orbit[ a ] (GEO), is a circular geosynchronous orbit 35,786 km (22,236 mi) in altitude above Earth's equator, 42,164 km (26,199 mi) in radius from Earth's center, and following the ...
Sep 18, 2024 · geostationary orbit, a circular orbit 35,785 km (22,236 miles) above Earth’s Equator in which a satellite’s orbital period is equal to Earth’s rotation period of 23 hours and 56 minutes. A spacecraft in this orbit appears to an observer on Earth to be stationary in the sky. This particular orbit is used for meteorological and ...
- The Editors of Encyclopaedia Britannica
Apr 23, 2024 · To achieve a geostationary orbit, a satellite must be placed in an orbit that is directly above the Earth’s equator and must be traveling at the same speed as the Earth’s rotation. This requires precise calculations and adjustments to ensure that the satellite remains in the correct position relative to the Earth.
For the geostationary orbit, calculate. (i) the orbital period X in minutes. (ii) the height Y above the Earth's surface that a geostationary satellite will orbit in km. (i) Step 1: Convert the time period from seconds to minutes. The period of a geostationary orbit is X = 24 hrs. The period of a geostationary orbit is X = 24 × 60 = 1440 minutes.
To achieve a geostationary orbit, a geosynchronous orbit is chosen with an eccentricity of zero, and an inclination of either zero, right on the equator, or else low enough that the spacecraft can use propulsive means to constrain the spacecraft's apparent position so it hangs seemingly motionless above a point on Earth.
3. The geostationary orbit. Geostationary orbits of 36,000km from the Earth's equator are best known for the many satellites used for various forms of telecommunication, including television. Signals from these satellites can be sent all the way round the world. Telecommunication needs to "see" their satellite all time and hence it must remain ...
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Mar 30, 2020 · There are many factors that decide which orbit would be best for a satellite to use, depending on what the satellite is designed to achieve. Geostationary orbit (GEO) Low Earth orbit (LEO) Medium Earth orbit (MEO) Polar orbit and Sun-synchronous orbit (SSO) Transfer orbits and geostationary transfer orbit (GTO) Lagrange points (L-points)
