What does the Geostationary Operational Environmental satellite do?
What does the Geostationary Operational Environmental satellite do?
GOES satellites provide the kind of continuous monitoring necessary for intensive data analysis. They circle the Earth in a geosynchronous orbit, which means they orbit the equatorial plane of the Earth at a speed matching the Earth’s rotation.
What is Geostationary Meteorological satellite?
Geostationary weather satellites orbit the Earth above the equator at altitudes of 35,880 km (22,300 miles). Because of this orbit, they remain stationary with respect to the rotating Earth and thus can record or transmit images of the entire hemisphere below continuously with their visible-light and infrared sensors.
What is GOES used for?
These spacecraft help meteorologists observe and predict local weather events, including thunderstorms, tornadoes, fog, hurricanes, flash floods and other severe weather. In addition, GOES observations have proven helpful in monitoring dust storms, volcanic eruptions and forest fires.
What does a geostationary satellite observe?
Satellites in geostationary orbit rotate with the Earth directly above the equator, continuously staying above the same spot. This position allows satellites to observe weather and other phenomena that vary on short timescales.
Where is the geostationary operational environmental satellite program ( goes ) located?
The Geostationary Operational Environmental Satellite Program (GOES) is a joint effort of NASA and the National Oceanic and Atmospheric Administration (NOAA). The GOES system currently consists of GOES-13, operating as GOES-East, in the eastern part of the constellation at 75 degrees west longitude and GOES-15, operating as GOES-West,
What is the history of the GOES satellite?
History Of GOES. Since 1975, Geostationary Operational Environmental Satellites (GOES) have provided continuous imagery and data on atmospheric conditions and solar activity (space weather).
When was the first geostationary satellite launched into space?
The geostationary satellite experiment began in 1966 with the launch of the first satellite of the Applications Technology Satellite (ATS) series. ATS-1, launched on December 7, 1966, carried an instrument capable of providing continuous images of the earth, and an instrument that enabled the transmission of data to and from ground stations.
What was the purpose of the ATS 1 satellite?
ATS-1, launched on December 7, 1966, carried an instrument capable of providing continuous images of the earth, and an instrument that enabled the transmission of data to and from ground stations. Six ATS satellites were launched between 1966 and 1974.
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