Because of the thin wisps of atmosphere at its altitude, the size of the ISS' orbit slowly decays, and the station is occasionally 're-boosted'. In January of this year, the station was given a boost to 358 kilometers from the earth's surface. By July, it had decayed to about 346 km. Two separate reboosts in July raised it to about 349 km.
This is a very arbitrary question, as it depends on the size/capabilities of said station. The ISS can carry a crew of seven at a given time. However, a station COULD be constructed to carry a crew of indefinite size.
The cost to build a space station can vary widely depending on factors such as its size, complexity, technology used, and duration of stay. For example, the International Space Station (ISS) cost around $150 billion to construct and has been continuously inhabited since 2000. Future space stations, such as those planned for deep space exploration or commercial purposes, could have different cost estimates.
The International Space Station (ISS) is being assembled in space rather than on Earth because it is a complex structure that needs to be launched into orbit. It is not possible to build it on Earth and then launch it into space in one piece due to its size and weight. Instead, it is being assembled piece by piece in space by multiple space agencies from different countries, using space shuttles and other spacecraft.
The maximum number of people that can be in the International Space Station at one time is six. This is the typical crew size for long-duration missions.
The cost varies depending on the size of the satellite, which determines which launch vehicle (rocket) can be used, the orbit the satellite is to put into (polar, low Earth orbit, geosynchronous, etc.) Costs start at about $50 million which does not include the cost of developing and building the satellite.
That completely depends on the size of your orbit. -- If you're in "low Earth orbit", a few hundred miles above the surface, like the Hubble Space Telescope, the International Space Station, or an astronaut 'floating' around one of them, then the period of the orbit is around 90 minutes. -- If you're in a 22,000-mile orbit, like a geosynchronous satellite, then the period of the orbit is 24 hours. -- If you're in a 238,000-mile orbit, like the moon, then the period of the orbit is 27.3 days.
That completely depends on the size of the satellite's orbit ... the larger the orbit, the longer each revolution takes. 100 revolutions take the International Space Station about 6.25 days, but take the moon about 7.5 years
This is a very arbitrary question, as it depends on the size/capabilities of said station. The ISS can carry a crew of seven at a given time. However, a station COULD be constructed to carry a crew of indefinite size.
The cost to build a space station can vary widely depending on factors such as its size, complexity, technology used, and duration of stay. For example, the International Space Station (ISS) cost around $150 billion to construct and has been continuously inhabited since 2000. Future space stations, such as those planned for deep space exploration or commercial purposes, could have different cost estimates.
The International Space Station (ISS) is being assembled in space rather than on Earth because it is a complex structure that needs to be launched into orbit. It is not possible to build it on Earth and then launch it into space in one piece due to its size and weight. Instead, it is being assembled piece by piece in space by multiple space agencies from different countries, using space shuttles and other spacecraft.
range, extension, limit, magnitude, orbit, size, territory, reach, scope, space,
Because of the thin wisps of atmosphere at its altitude, the size of the ISS' orbit slowly decays, and the station is occasionally 're-boosted'. In January of this year, the station was given a boost to 358 kilometers from the earth's surface. By July, it had decayed to about 346 km. Two separate reboosts in July raised it to about 349 km.
The maximum number of people that can be in the International Space Station at one time is six. This is the typical crew size for long-duration missions.
There is no relation between the size of a satellite and the size or period of its orbit. Picture an astronaut on a space-walk, floating and hovering six feet from the Space Shuttle. The shuttle's size and mass are both several hundred times the size and mass of the astronaut, but he's in the same earth orbit as the Shuttle is. That's why they stay together. The mathematical relationship ties the satellite's orbital distance to its period ... the time it takes to complete one trip around the orbit. But the satellite's size makes no difference at all; and as long as its mass is nowhere near the mass of the central body, its mass doesn't make any difference either.
The cost varies depending on the size of the satellite, which determines which launch vehicle (rocket) can be used, the orbit the satellite is to put into (polar, low Earth orbit, geosynchronous, etc.) Costs start at about $50 million which does not include the cost of developing and building the satellite.
Meteors come in a variety of sizes, so a comparison between the size of the International Space Station (which measures about 100 meters by 70 meters) and any meteor requires that the specific meteor be identified.
An orbit is the path that an object follows as it revolves around another object in space, like a planet around a star. Orbits are defined by the gravitational pull of the objects involved and the object's velocity, determining the shape and size of the path it takes.