Thermosphere and the exosphere
Satellites orbit Earth in the thermosphere and exosphere, which are the upper layers of the Earth's atmosphere. The exosphere is the outermost layer of the atmosphere where most satellites, particularly those in geostationary orbit, are found.
Satellites are located in the exosphere because it is the outermost layer of Earth's atmosphere and provides an ideal environment for satellites to orbit without encountering significant atmospheric drag. This allows satellites to continuously orbit the Earth and perform their intended functions, such as communication, Earth observation, and navigation.
The outermost part of Earth's atmosphere is the exosphere, which extends from about 500 km to 10,000 km above the surface. Satellites in geostationary orbit, located at an altitude of about 35,786 km, are still within Earth's exosphere.
The exosphere is the outermost layer of Earth's atmosphere, composed of very low density gas particles, such as hydrogen and helium. It is where the atmosphere transitions into outer space and where satellites orbit the Earth. It is also where the majority of space debris is found.
Satellites and the space shuttle orbit in the thermosphere, a layer of the Earth's atmosphere located between the mesosphere and exosphere. Temperatures in the thermosphere can reach up to 2,500°C due to the absorption of solar radiation.
If they are in the atmosphere (low earth orbit), satellites are in the ionosphere. If they are in higher orbits, satellites are considered to be outside the atmosphere.
Satellites orbit Earth in the thermosphere and exosphere, which are the upper layers of the Earth's atmosphere. The exosphere is the outermost layer of the atmosphere where most satellites, particularly those in geostationary orbit, are found.
thermosphere
Satellites are located in the exosphere because it is the outermost layer of Earth's atmosphere and provides an ideal environment for satellites to orbit without encountering significant atmospheric drag. This allows satellites to continuously orbit the Earth and perform their intended functions, such as communication, Earth observation, and navigation.
exosphere
The outermost and biggest layer of Earth's atmosphere is the exosphere. This layer extends from about 500 to 10,000 kilometers above the Earth's surface and gradually transitions into outer space. The exosphere is where satellites orbit and where atmospheric particles are very sparse.
Most communications satellites operate outside of the earth's atmosphere. The GPS satellites are about 23,000 miles from the surface of the earth.
An orbit within the outermost part of Earth's atmosphere is known as a Low Earth Orbit (LEO). Satellites in LEO typically orbit between 160 and 2,000 kilometers above the Earth's surface. These orbits are commonly used for communication, weather observation, and Earth monitoring satellites.
The outermost part of Earth's atmosphere is the exosphere, which extends from about 500 km to 10,000 km above the surface. Satellites in geostationary orbit, located at an altitude of about 35,786 km, are still within Earth's exosphere.
The exosphere is the outermost layer of Earth's atmosphere, composed of very low density gas particles, such as hydrogen and helium. It is where the atmosphere transitions into outer space and where satellites orbit the Earth. It is also where the majority of space debris is found.
Satellites and the space shuttle orbit in the thermosphere, a layer of the Earth's atmosphere located between the mesosphere and exosphere. Temperatures in the thermosphere can reach up to 2,500°C due to the absorption of solar radiation.
Orbiting satellites are typically found in the thermosphere layer of the atmosphere, which extends from about 80 to 600 kilometers above the Earth's surface. This layer is where the density of gas molecules is low enough for satellites to orbit without experiencing significant atmospheric drag.