Satellite
A
satellite is any object that
orbits another object (which is known as its
primary). All masses that are part of the
solar system, including the
Earth, are satellites either of the
Sun, or satellites of those objects, such as the
Moon.
It is not always a simple matter to decide which is the "satellite" in a pair of bodies. Because all objects with mass are affected by
gravity, the motion of the primary object is also affected by the satellite. If two objects are sufficiently similar in
mass, they are generally referred to as a
binary system rather than a primary object and satellite; an extreme example is the 'double
asteroid'
90 Antiope. The general
criterion for an object to be a satellite is that the
center of mass of the two objects is inside the primary object.
The first artificial satellite
It was the English science fiction writer
Arthur C. Clarke who conceived the possibility of
artificial communication satellites in
1945 (facsimile at [
1] )Clarke examined the logistics of satellite launch, possible
orbits and other aspects of the creation of a network of world-circling satellites, pointing to the benefits of high-speed global communications. He also suggested that 3
geostationary satellites would provide coverage over the entire planet.The first artificial satellite was
Sputnik 1 launched by
Soviet Union on
October 4,
1957.
Early history of the US satellite program
In May,
1946,
Project RAND released the
Preliminary Design of an Experimental World-Circling Spaceship, which stated, "A satellite vehicle with appropriate instrumentation can be expected to be one of the most potent
scientific tools of the
Twentieth Century. The achievement of a satellite craft would produce repercussions comparable to the explosion of the
atomic bomb..."
The
space age began in 1946, as
scientists began using captured
German V-2 rockets to make measurements in the upper
atmosphere.
Before this period, scientists used
balloons that went up to
30 km and
radio waves to study the
ionosphere. From
1946 to
1952, upper-
atmosphere research was conducted using V-2s and
Aerobee rockets. This allowed measurements of atmospheric
pressure,
density, and
temperature up to 200
km. (see also:
magnetosphere,
Van Allen radiation belt)
The
United States had been considering launching
orbital satellites since 1945 under the
Bureau of Aeronautics of the
United States Navy. The
Air Force's Project RAND eventually released the above report, but did not believe that the satellite was a potential military
weapon; rather they considered it to be a tool for
science,
politics, and
propaganda. In 1954, the Secretary of Defence stated, "I know of no American satellite program."
Following pressure by the
American Rocket Society, the
National Science Foundation, and the
International Geophysical Year, military interest picked up and in early 1955 the Air Force and Navy were working on
Project Orbiter, which involved using a
Jupiter C rocket to launch a small satellite called
Explorer 1 on
January 31,
1958.
On
July 29,
1955, the
White House announced that the U.S. intended to launch satellites by the
spring of 1958. This became known as
Project Vanguard. On
July 31, the Soviets announced that they intended to launch a satellite by the fall of 1957 and on
October 4,
1957 Sputnik I was launched into orbit, which triggered the
Space Race between the two nations.
The largest artificial satellite currently orbiting the Earth is the
International Space Station.
Types of satellites
Astronomical satellites are satellites used for observation of distant planets, galaxies, and other outer space objects.
reconnaissance satellites but intended for non-military uses such as
environmental monitoring,
meteorology,
map making etc. (See especially
Earth Observing System.)
Navigation satellites are satellites which use
radio time signals transmitted to enable mobile receivers on the ground to determine their exact location. The relatively clear line of sight between the satellites and receivers on the ground, combined with ever-improving electronics, allows satellite navigation systems to measure location to accuracies on the order of a few
metres in real time.
Killer Satellites /
Anti-Satellite Weapons are satellites designed to destroy "enemy" satellites, other orbital weapons and targets. Some are armed with kinetic rounds, while others use energy and/or particle weapons to destroy satellites, ICBMs, MIRVs.Both the US and the USSR had these satellites. Links discussing "Killer Satellites", ASATS (Anti-Satellite satellite) include
USSR Tests ASAT weapon and
ASAT Test. See also
IMINTReconnaissance satellites are
Earth observation satellite or
communications satellite deployed for
military or
intelligence applications. Little is known about the full power of these satellites, as governments who operate them usually keep information pertaining to their reconnaissance satellites classified.
Solar power satellites are proposed satellites built in
high Earth orbit that use
microwave power transmission to beam
solar power to very large
antenna on Earth where it can be used in place of conventional power sources.
Space stations are man-made structures that are designed for
human beings to live on in
outer space. A space station is distinguished from other manned
spacecraft by its lack of major
propulsion or
landing facilities — instead, other vehicles are used as transport to and from the station. Space stations are designed for medium-term living in
orbit, for periods of
weeks,
months, or even
years.
Weather satellites are satellites that primarily are used to monitor the
weather and/or
climate of the
Earth.
Miniaturized satellites are satellites of unusually low weights and small sizes. New classifications are used to categorize these satellites: minisatellite (500–200 kg), microsatellite (below 200 kg), nanosatellite (below 10 kg).
Biosatellites are satellites designed to carry living organisms, generally for scientific experimentation.
Orbit types
Many times satellites are characterized by their orbit. Although a satellite may orbit at almost any altitude, satellites are commonly categorized by their altitude:
*
Low Earth Orbit (LEO: 200 to 1200 km above the Earth's surface)
*
Medium Earth Orbit (ICO or MEO: 1200 to 35286 km)
*
Geosynchronous Orbit (GEO: 35786 km above Earth's surface)
*
Geostationary Orbit (GSO: zero inclination geosynchronous orbit)
*
High Earth Orbit (HEO: above 35786 km)
The following orbits are special orbits that are also used to categorize satellites:
*
Molniya orbits
*
Heliosynchronous or sun-synchronous orbit
*
Polar orbit*
LTO lunar transfer orbit.
*
Hohmann transfer orbit. For this particular orbit type, it is more common to identify the satellite as a
spacecraft.
*
Supersynchronous orbit or drift orbit — orbit above GEO. Satellites will drift in a westerly direction.
** (GEO + 235 km + (1000 × CR ×
A/
m) km)
*** where CR is the solar pressure radiation coefficient (typically between 1.2 and 1.5) and
A/
m is the aspect area [m
2] to dry mass [kg] ratio
*
Subsynchronous orbit or drift orbit - orbits close to but below GEO. Used for satellites undergoing station changes in an eastern direction.
Satellites can also orbit
libration points.
Countries with satellite launch capability
This list includes countries with an independent capability to place satellites in orbit, including production of the necessary launch vehicle. Note: many more countries have the capability to design and build satellites - which relatively speaking, does not require much economic, scientific and industrial capacity - but are unable to launch them, instead relying on foreign launch services. This list
does not consider those numerous countries, but only lists those capable of launching satellites indigenously, and the date this capability was first demonstrated.
Both
North Korea and
Iraq have claimed orbital launches but these are unconfirmed. Norway has launched domestic and international satellites from its space center on Andøya. As of 2006, only eight countries have independently launched satellites into orbit on their own indigenously developed launch vehicles - in chronological order:
USSR,
USA,
France,
Japan,
China,
UK,
India and
Israel. It should be noted that while
Kazakhstan did launch their satellite independently, it was built by the Russians, and the rocket was not independently designed. The launch capabilities of the
United Kingdom and
France now fall under the
European Union, and the launch capabilities of the
Soviet Union fall under
Russia, reducing the number of political entities with active satellite launch capabilities to seven - six 'major' space powers:
USA,
Russia,
China,
India,
EU,
Japan - and one 'minor' space power:
Israel.
Several other countries such as
South Korea,
Pakistan,
Iran and
Brazil are in the early stages of developing their own small-scale launch capabilities, and seek to become 'minor' space powers - others may have the scientific and industrial capability, but not the economic or political will. First Italian satellite was San Marco 1, launched from Wallops Island (USA) on
15 December,
1964 on a scout launcher.
Italy used a modified Scout launcher and never developed her own launcher: Italian satellites use Soyuz or Ariane (ESA) launchers.
The (artificial, though this is not stated in the blazon) satellite appears as a
charge in the arms of
Arthur Maxwell House.[
2] This is in addition to numerous appearances of the natural satellite the
moon, and the moons of the
planets
Jupiter and
Saturn (with those planets) in the arms of
Pierre-Simon LaPlace.
|
A model satellite in museum |
*
Timeline of artificial satellites and space probes*
List of Earth observation satellites* Satellites (by Launch Date)
**
Syncom 1 (
1963 ), 2 (1963) and 3 (1964)
**
Anik 1 (1972)
**
Aryabhata (1975) (India, launched by USSR)
**
Hermes Communications Technology Satellite (1976)
**
Experimental geodetic payload (1986)
**
Munin (2000) (Swedish, launched by US)
**
KEO satellite - a space
time capsule (2006)
* Satellite Services
**
Satellite phone**
Satellite Internet**
Satellite television**
Satellite radio*
Anti-satellite weapon*
GoldenEye (fictional satellite weapon)
*
Tether satellite*
Free web based satellite tracker*
Edusat project* [
3]Facsimile of Arthur C. Clarke's 1945 paper on communication satellites
*
J-Pass NASA site for satellite-watching
*
GPS Satellites*
heavens-above.com site for satellite-watching
*
Orbitron - Satellite Tracking System Free satellite tracking software
*
Satellite Tracking in Recreation Radio Amateur an excellent link to many links
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UN Office for Outer Space Affairs ensures all countries benefit from satellites
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Satellite Internet: Beam contour maps Worldwide satellite mapping showing service area coverages in each region, plus independent advice and forum on two-way VSAT terminal operation for voice, data and internet access
*
Satellite Service Providers Compare and review on top satellite tv, radio and internet service providers]
*
CBC Digital Archives - Launching the Digital Age: Canadian Satellites
