Everything about Low Earth Orbit totally explained
A
Low Earth Orbit (LEO) is generally defined as an
orbit within the
locus extending from the Earth’s surface up to an altitude of 2,000 km. Given the rapid orbital decay of objects below approximately 200 km, the commonly accepted definition for LEO is between 160 - 2000 km (100 - 1240 miles) above the
Earth's surface.
With the exception of the
Project Apollo missions to the
Moon and suborbital test flights such as the early
Project Mercury missions and the flights of the
X-15 rocket plane, most
manned spaceflights have been in LEO, including all
Space Shuttle and various
space station missions.
Orbital Characteristics
Objects in LEO encounter atmospheric drag in the form of
gases in the
thermosphere (approximately 80-500 km up) or
exosphere (approximately 500 km and up), depending on orbit height. LEO is an orbit around Earth between the atmosphere and below the inner
Van Allen radiation belt. The altitude is usually not less than 300 km because that would be impractical due to the larger atmospheric drag.
Equatorial Low Earth Orbits (ELEO) are a subset of LEO. These orbits, with low inclination to the Equator, allow rapid revisit times and have the lowest
delta-v requirement of any orbit. Orbits with a high inclination angle are usually called
polar orbits.
Higher orbits include
medium Earth orbit (MEO), sometimes called
intermediate circular orbit (ICO), and further above,
Geostationary orbit (GEO). Orbits higher than low orbit can lead to earlier failure of electronic components due to intense radiation and charge accumulation, while commercial devices such as laptops have been used successfully in LEO during manned flight.
Human use
The
International Space Station is in a LEO that varies from to above the Earth's surface.
While a majority of artificial
satellites are placed in LEO, where they travel at about, making one complete revolution around the Earth in about 90 minutes, many
communication satellites require
geostationary orbits, and move at the same angular velocity as the Earth. Since it requires less energy to place a satellite into a LEO and the LEO satellite needs less powerful amplifiers for successful transmission, LEO is still used for many communication applications. Because these LEO orbits are not geostationary, a network (or "
constellation") of satellites is required to provide continuous coverage. Lower orbits also aid
remote sensing satellites because of the added detail that can be gained. Remote sensing satellites can also take advantage of
sun-synchronous LEO orbits at an altitude of about and near polar inclination.
ENVISAT is one example of an Earth observation satellite that makes use of this particular type of LEO.
Although the Earth's pull due to
gravity in LEO isn't much less than on the surface of the Earth, people and objects in orbit experience
weightlessness due to the effects of
freefall.
Atmospheric and
gravity drag associated with launch typically add 1,500-2,000 m/s to the
(delta-V) required to reach normal LEO orbital velocity of around .
Space debris
The LEO environment is becoming congested with
space debris which has caused a growing concern in recent years, since collisions at orbital velocities can be highly damaging or dangerous and can produce even more space debris in the process, called the
Kessler Syndrome. The Space Control Center, part of
United States Strategic Command (formerly the United States Space Command), currently tracks more than 8,500 objects larger than 10cm in LEO.
Further Information
Get more info on 'Low Earth Orbit'.
|
External Link Exchanges
Do you know how hard it is to get a link from a large encyclopaedia? Well we're different and will prove it. To get a link from us just add the following HTML to your site on a relevant page:
<a href="http://low_earth_orbit.totallyexplained.com">Low Earth orbit Totally Explained</a>
Then simply click through this link from your web page. Our crawlers will verify your link, extract the title of your web page and instantly add a link back to it. If you like you can remove the words Totally Explained and embed the link in article text.
As long as your link remains in place, we'll keep our link to you right here. Please play fair - our crawlers are watching. Your site must be closely related to this one's topic. Any kind of spamming, dubious practises or removing the link will result in your link from us being dropped and, potentially, your whole site being banned. |
