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When was the GOES satellite first launched?
The first GOES (Geostationary Operational Environmental Satellite) satellite was launched on October 16, 1975.
How does the Geostationary Operational Environment Satellite work?
The Geostationary Operational Environment Satellites (GOES) work by being placed in geostationary orbit about 22,236 miles above Earth. From this position, they can continuously monitor a specific region of the Earth's surface and provide real-time weather data such as cloud cover, temperature, and atmospheric conditions. The satellites use various instruments to gather data and transmit it back to Earth for use in weather forecasting and monitoring.
Which is the height of a geostationary satellite from the surface is approximately?
The height of a geostationary satellite from the surface is approximately 35,786 kilometers (22,236 miles).
How can you tell a satellite is in geostationary orbit?
A satellite is in geostationary orbit when it orbits the Earth at the same speed and direction as the Earth's rotation. This allows the satellite to appear stationary from the surface of the Earth. Measurements of its position and velocity can confirm that it is in geostationary orbit.
A satellite communication system why is the geostationary orbit preferred?
Geostationary orbit is preferred for satellite communication systems because the satellite appears to be fixed in the sky, allowing for continuous communication with stationary ground stations. This eliminates the need for tracking equipment on the ground. Additionally, the geostationary orbit provides a large coverage area, making it ideal for broadcasting and communication services.
What type of satellite is the g.o.e.s.?
It is a geostationary operational environmental satellite, though I'm not sure what is does.
What type of satellite is geostationary operational environment satellite how does it work?
a weather satellite and it rotates around the Earth at the same rate and in the same direction that Earth revolves so it is always fixed over the same location.
When was the GOES satellite first launched?
The first GOES (Geostationary Operational Environmental Satellite) satellite was launched on October 16, 1975.
Which satellite used for telecommunication?
Geostationary satellite
First Indian satellite in geostationary satellite was?
Aryabhatta
Why doesnt a geostationary satellite trace a path over the surface of the earth?
A geostationary satellite does not trace a path over the surface of the earth because that is what geostationary means - the satellite is stationary over a point on the Earth.
How does the geostationary operational environmental satellite work?
it revolves around Earth at the same rate that Earth is rotating so that it is always fixed over the same location
How does the Geostationary Operational Environment Satellite work?
The Geostationary Operational Environment Satellites (GOES) work by being placed in geostationary orbit about 22,236 miles above Earth. From this position, they can continuously monitor a specific region of the Earth's surface and provide real-time weather data such as cloud cover, temperature, and atmospheric conditions. The satellites use various instruments to gather data and transmit it back to Earth for use in weather forecasting and monitoring.
Which is the height of a geostationary satellite from the surface is approximately?
The height of a geostationary satellite from the surface is approximately 35,786 kilometers (22,236 miles).
How far above the earth is geostationary orbit?
Geostationary satellites are in an orbit that's 22,282 mi (35,786 km) above the surface of the Earth. For more on Geostationary satellite orbits, visit http://www.idirect.net/Company/Satellite-Basics/How-Satellite-Works.aspx
Does a satellite in a geostationary orbit move across the sky from east to west?
No. A geostationary satellite appears to be stationary in the sky, which means not moving. This is a big part of the reason why it is referred to as a geo'stationary' satellite.
Why perfect geostationary satellite can not be made?
It should be possible to have the perfectly geostationary satellites. But it is not possible. Perfectly geostationary satellite can not be made. Such satellite is pulled away by other objects like moon, sun and other planets from different directions. This force changes the velocity of the satellites.
