No. That only applies to low Earth orbit. Geostationary satellites orbit beyond it.
There are thousands of satellites in orbit around Earth, each serving different purposes such as communication, weather forecasting, and Earth observation. Some well-known satellites include the Hubble Space Telescope, International Space Station, GPS satellites, and the Mars Reconnaissance Orbiter.
Some major satellites launched into space include the Hubble Space Telescope, International Space Station, GPS satellites, and Earth observation satellites like Landsat and GOES. These satellites serve various purposes such as scientific research, communication, navigation, and monitoring of Earth's environment.
The thermosphere is the "hottest" layer of the Earth's atmosphere. As the outermost layer with substantial numbers of molecules, it receives the most direct radiation from the Sun. However, despite the high molecular temperatures measured in this layer (as high as 2500°C or 4530°F), the matter is tenuous compared to the lower atmosphere. An object within the thermosphere would absorb very little total heat energy. Almost all satellites, and the International Space Station, orbit within the thermosphere. The layer periodically varies in thickness, stretching from about 80 kilometers in altitude to between 250 and 500 kilometers. The thermosphere.
All satellites, rovers, manned and unmanned rocketships
Unmanned satellites are spacecraft that are operated without the presence of humans on board. They are launched into space to perform various tasks such as Earth observation, communication, weather monitoring, navigation, and scientific research. Unmanned satellites are controlled remotely from ground stations on Earth.
You would usually find a satellite up in space, and at places like ESA, JEXA, and NASA Note that the term "satellite" does not just refer to artificial satellites. The moon is a satellite because it orbits the Earth. Any of the moons of the various planets are satellites of those planets. The Earth (and the other planets) are all satellites of the Sun. A satellite is any body which is attached to another body via gravitational pull.
No - satellites do not go to the moon. Satellites orbit planets/moons/objects with gravity in space.
There are thousands of satellites in orbit around Earth, each serving different purposes such as communication, weather forecasting, and Earth observation. Some well-known satellites include the Hubble Space Telescope, International Space Station, GPS satellites, and the Mars Reconnaissance Orbiter.
It usually stays in orbit around the earth, and poses a serious threat to all orbiting satellites. Even a small object can destroy things at high speed. Most satellites can move around projected paths of junk thrown in space. Some astronomers use radio telescopes to track "Space Junk".
Some major satellites launched into space include the Hubble Space Telescope, International Space Station, GPS satellites, and Earth observation satellites like Landsat and GOES. These satellites serve various purposes such as scientific research, communication, navigation, and monitoring of Earth's environment.
Artificial satellites come from all over the world. Each country send their own satellites into space.
It keeps all the heat in from the sun so we stay warm enough so the world can be populated.
The thermosphere is the "hottest" layer of the Earth's atmosphere. As the outermost layer with substantial numbers of molecules, it receives the most direct radiation from the Sun. However, despite the high molecular temperatures measured in this layer (as high as 2500°C or 4530°F), the matter is tenuous compared to the lower atmosphere. An object within the thermosphere would absorb very little total heat energy. Almost all satellites, and the International Space Station, orbit within the thermosphere. The layer periodically varies in thickness, stretching from about 80 kilometers in altitude to between 250 and 500 kilometers. The thermosphere.
The thermosphere is the "hottest" layer of the Earth's atmosphere. As the outermost layer with substantial numbers of molecules, it receives the most direct radiation from the Sun. However, despite the high molecular temperatures measured in this layer (as high as 2500°C or 4530°F), the matter is tenuous compared to the lower atmosphere. An object within the thermosphere would absorb very little total heat energy. Almost all satellites, and the International Space Station, orbit within the thermosphere. The layer periodically varies in thickness, stretching from about 80 kilometers in altitude to between 250 and 500 kilometers. The thermosphere.
All space telescopes are unmanned - unless you want to count the small telescopes on the Shuttle or IIS as space telescopes.
The thermosphere is the "hottest" layer of the Earth's atmosphere. As the outermost layer with substantial numbers of molecules, it receives the most direct radiation from the Sun. However, despite the high molecular temperatures measured in this layer (as high as 2500°C or 4530°F), the matter is tenuous compared to the lower atmosphere. An object within the thermosphere would absorb very little total heat energy. Almost all satellites, and the International Space Station, orbit within the thermosphere. The layer periodically varies in thickness, stretching from about 80 kilometers in altitude to between 250 and 500 kilometers. The thermosphere.
All of the TV satellites, and most of the weather ones, are at different spots on a big circular orbit, directly over the equator and about 22,200 miles above it.