Everything about Satellites totally explained
In the context of
spaceflight, a
satellite is an object which has been placed into
orbit by human endeavor. Such objects are sometimes called
artificial satellites to distinguish them from
natural satellites such as the
Moon.
History
Early conceptions
The first recorded fictional depiction of a satellite being launched into orbit is a
short story by
Edward Everett Hale,
The Brick Moon. The story was serialized in
The Atlantic Monthly, starting in 1869. The idea surfaces again in
Jules Verne's
The Begum's Millions (1879).
In 1903
Konstantin Tsiolkovsky (1857–1935) published Исследование мировых пространств реактивными приборами (
The Exploration of Cosmic Space by Means of Reaction Devices), which is the first academic treatise on the use of rocketry to launch
spacecraft. He calculated the
orbital speed required for a minimal
orbit around the Earth at 8 km/s, and that a
multi-stage rocket fueled by liquid
propellants could be used to achieve this. He proposed the use of
liquid hydrogen and
liquid oxygen, though other combinations can be used.
In 1928
Herman Potočnik (1892–1929) published his sole book,
Das Problem der Befahrung des Weltraums - der Raketen-Motor (
The Problem of Space Travel — The Rocket Motor), a plan for a breakthrough into space and a permanent human presence there. He conceived of a space station in detail and calculated its
geostationary orbit. He described the use of orbiting spacecraft for detailed peaceful and military observation of the ground and described how the special conditions of space could be useful for scientific experiments. The book described geostationary satellites (first put forward by Tsiolkovsky) and discussed communication between them and the ground using radio, but fell short of the idea of using satellites for mass broadcasting and as telecommunications relays.
In a 1945
Wireless World article the English science fiction writer
Arthur C. Clarke (1917-2008) described in detail the possible use of
communications satellites for mass communications. 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 three
geostationary satellites would provide coverage over the entire planet.
History of artificial satellites
Sputnik 1, launched by the
Soviet Union on
4 October 1957, and that started the whole
Soviet Sputnik program, with
Sergei Korolev as chief designer. This triggered the
Space Race between the Soviet Union and the
United States.
Sputnik 1 helped to identify the density of high
atmospheric layers through measurement of its orbital change and provided data on
radio-signal distribution in the
ionosphere. Because the satellite's body was filled with pressurized
nitrogen,
Sputnik 1 also provided the first opportunity for meteoroid detection, as a loss of internal pressure due to meteoroid penetration of the outer surface would have been evident in the temperature data sent back to Earth. The unanticipated announcement of Sputnik 1's success precipitated the
Sputnik crisis in the
United States and ignited the so-called
Space Race within the
Cold War.
Sputnik 2 was launched on
November 3,
1957 and carried the first living passenger into orbit, a
dog named
Laika.
In May, 1946,
Project RAND had 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
United States had been considering launching
orbital satellites since 1945 under the
Bureau of Aeronautics of the
United States Navy. The
United States Air Force's Project RAND eventually released the above report, but didn't 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 Defense stated, "I know of no American satellite program."
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.
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 satellite. The project succeeded, and
Explorer 1 became the United States' first satellite on
January 31,
1958.
The largest artificial satellite currently orbiting the Earth is the
International Space Station.
Space Surveillance Network
The
United States Space Surveillance Network (SSN) has been tracking space objects since 1957 when the Soviets opened the space age with the launch of Sputnik I. Since then, the SSN has tracked more than 26,000 space objects orbiting Earth. The SSN currently tracks more than 8,000 man-made orbiting objects. The rest have re-entered Earth's turbulent atmosphere and disintegrated, or survived re-entry and impacted the Earth. The space objects now orbiting Earth range from satellites weighing several tons to pieces of spent rocket bodies weighing only 10 pounds. About seven percent of the space objects are operational satellites (for example ~560 satellites), the rest are
space debris.
USSTRATCOM is primarily interested in the active satellites, but also tracks space debris which upon reentry might otherwise be mistaken for incoming missiles. The SSN tracks space objects that are 10 centimeters in diameter (baseball size) or larger.
Non-Military Satellite Services
There are three basic categories of non-military satellite services:
Fixed Satellite Service
Fixed satellite services handle hundreds of billions of voice, data, and video transmission tasks across all countries and continents between certain points on the earth’s surface
Mobile Satellite Systems
Mobile satellite systems help connect remote regions, vehicles, ships and aircraft to other parts of the world and/or other mobile or stationary communications units, in addition to serving as navigation systems
Scientific Research Satellite (commercial and noncommercial)
Scientific research satellites provide us with meteorological information, land survey data (for example, remote sensing), and other different scientific research applications such as earth science, marine science, and atmospheric research.
Types
- Astronomical satellites are satellites used for observation of distant planets, galaxies, and other outer space objects.
- Biosatellites are satellites designed to carry living organisms, generally for scientific experimentation.
- Communications satellites are satellites stationed in space for the purpose of telecommunications. Modern communications satellites typically use geosynchronous orbits, Molniya orbits or Low Earth orbits.
- 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).
- Navigational 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 meters in real time.
- Reconnaissance 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.
- Earth observation satellites are satellites intended for non-military uses such as environmental monitoring, meteorology, map making etc. (See especially Earth Observing System.)
- 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.
- Tether satellites are satellites which are connected to another satellite by a thin cable called a tether.
- Weather satellites are primarily used to monitor Earth's weather and climate.
Orbit types
The first satellite,
Sputnik 1, was put into orbit around
Earth and was therefore in
geocentric orbit. By far this is the most common type of orbit with approximately 2456 artificial satellites orbiting the
Earth. Geocentric orbits may be further classified by their
altitude,
inclination and
eccentricity.
The commonly used altitude classifications are
Low Earth Orbit (LEO),
Medium Earth Orbit (MEO) and
High Earth Orbit (HEO). Low Earth orbit is any orbit below 2000 km, and Medium Earth Orbit is any orbit higher than that but still below the altitude for
geosynchronous orbit at 35786 km. High Earth Orbit is any orbit higher than the altitude for geosynchronous orbit.
Centric classifications
Galactocentric orbit: An orbit about the center of a galaxy. Earth's sun follows this type of orbit about the galactic center of the Milky Way.
Heliocentric orbit: An orbit around the Sun. In our Solar System, all planets, comets, and asteroids are in such orbits, as are many artificial satellites and pieces of space debris. Moons by contrast are not in a heliocentric orbit but rather orbit their parent planet.
Geocentric orbit: An orbit around the planet Earth, such as the Moon or artificial satellites. Currently there are approximately 2465 artificial satellites orbiting the Earth.
Areocentric orbit: An orbit around the planet Mars, such as moons or artificial satellites.
Altitude classifications
Low Earth Orbit (LEO): Geocentric orbits ranging in altitude from 0–2000 km (0–1240 miles)
Medium Earth Orbit (MEO): Geocentric orbits ranging in altitude from 2000 km (1240 miles) to just below geosynchronous orbit at 35786 km (22240 miles). Also known as an intermediate circular orbit.
High Earth Orbit (HEO): Geocentric orbits above the altitude of geosynchronous orbit 35786 km (22240 miles).
Inclination classifications
Inclined orbit: An orbit whose inclination in reference to the equatorial plane isn't zero degrees.
Eccentricity classifications
Circular orbit: An orbit that has an eccentricity of 0 and whose path traces a circle.
Elliptic orbit: An orbit with an eccentricity greater than 0 and less than 1 whose orbit traces the path of an ellipse.
Hyperbolic orbit: An orbit with the eccentricity greater than 1. Such an orbit also has a velocity in excess of the escape velocity and as such, will escape the gravitational pull of the planet and continue to travel infinitely.
Parabolic orbit: An orbit with the eccentricity equal to 1. Such an orbit also has a velocity equal to the escape velocity and therefore will escape the gravitational pull of the planet and travel until its velocity relative to the planet is 0. If the speed of such an orbit is increased it'll become a hyperbolic orbit.
Synchronous classifications
Synchronous orbit: An orbit where the satellite has an orbital period equal to the average rotational period (earth's is: 23 hours, 56 minutes, 4,091 seconds) of the body being orbited and in the same direction of rotation as that body. To a ground observer such a satellite would trace an analemma (figure 8) in the sky.
Semi-synchronous orbit (SSO): An orbit with an altitude of approximately 20200 km (12544.2 miles) and an orbital period of approximately 12 hours
Geosynchronous orbit (GEO): Orbits with an altitude of approximately 35786 km (22240 miles). Such a satellite would trace an analemma (figure 8) in the sky.
Special classifications
Sun-synchronous orbit: An orbit which combines altitude and inclination in such a way that the satellite passes over any given point of the planets's surface at the same local solar time. Such an orbit can place a satellite in constant sunlight and is useful for imaging, spy, and weather satellites.
Moon orbit: The orbital characteristics of earth's moon. Average altitude of 384403 kilometres (238857 mi), elliptical-inclined orbit.
Pseudo-orbit classifications
Horseshoe orbit: An orbit that appears to a ground observer to be orbiting a certain planet but is actually in co-orbit with the planet. See asteroids 3753 (Cruithne) and 2002 AA29.
Exo-orbit: A maneuver where a spacecraft approaches the height of orbit but lacks the velocity to sustain it.
Lunar transfer orbit (LTO)
Prograde orbit: An orbit with an inclination of less than 90°. Or rather, an orbit that's in the same direction as the rotation of the primary.
Retrograde orbit: An orbit with an inclination of more than 90°. Or rather, an orbit counter to the direction of rotation of the planet. Apart from those in sun-synchronous orbit, few satellites are launched into retrograde orbit because the quantity of fuel required to launch them is much greater than for a prograde orbit. This is because when the rocket starts out on the ground, it already has an eastward component of velocity equal to the rotational velocity of the planet at its launch latitude.
Halo orbit and Lissajous orbit: Orbits "around" Lagrangian points.
Satellite Modules
The satellite’s functional versatility is imbedded within its technical components and its operations characteristics. Looking at the “anatomy” of a typical satellite, one discovers two modules.
|- bgcolor=#efefef
! Country || Year of first launch || First satellite || Payloads in orbit in 2008
|-
|align="left"| || 1957 || Sputnik 1 || 1398
|-
|align="left"| || 1958 || Explorer 1 || 1042
|-
|align="left"| || 1962 || Alouette 1 || 25
|-
|align="left"| || 1964 || San Marco 1 ||14
|-
|align="left"| || 1965 || Astérix || 44
|-
|align="left"| || 1967 || WRESAT || 11
|-
|align="left"| || 1969 || Azur ||27
|-
|align="left"| || 1970 || Osumi || 111
|-
|align="left"| || 1970 || Dong Fang Hong I || 64
|-
|align="left"| || 1971 || Prospero X-3 || 25
|-
|align="left"| || 1973 || Intercosmos Kopernikus 500 || ?
|-
|align="left"| || 1974 || ANS || 5
|-
|align="left"| || 1974 || Intasat || 9
|-
|align="left"| || 1975 || Aryabhata || 34
|-
|align="left"| || 1976 || Palapa A1 ||10
|-
|align="left"| || 1978 || Magion 1 || 5
|-
|align="left"| || 1981 || Intercosmos 22 ||
|-
|align="left"| || 1985 || Brasilsat A1 ||11
|-
|align="left"| || 1985 || Morelos 1 || 7
|-
|align="left"| || 1986 || Viking || 11
|-
|align="left"| || 1988 ||Ofeq 1 || 7
|-
|align="left"| || 1988 ||Astra 1A ||15
|-
|align="left"| || 1990 ||Lusat || 10
|-
|align="left"| || 1990 ||Badr-1 ||5
|-
|align="left"| || 1992 ||Kitsat A ||10
|-
|align="left"| || 1993 ||PoSAT-1 || 1
|-
|align="left"| || 1993 ||Thaicom 1 || 6
|-
|align="left"| || 1994 ||Turksat 1B || 5
|-
|align="left"| || 1995 ||FASat-Alfa ||1
|-
|align="left"| || 1996 ||MEASAT ||4
|-
|align="left"| || 1997 ||Thor 2 ||3
|-
|align="left"| || 1997 ||Mabuhay 1 ||2
|-
|align="left"| || 1998||Nilesat 101 || 3
|-
|align="left"| || 1998||Acts 1 || 1
|-
|align="left"| || 1999 ||Ørsted ||3
|-
|align="left"| || 1999||SUNSAT ||1
|-
|align="left"| || 2000||Saudisat 1A || 12
|-
|align="left"| || 2000||Thuraya 1 ||3
|-
|align="left"| || 2002||Alsat 1 ||1
|-
|align="left"| || 2003||Hellas Sat 2 || 2
|-
|align="left"| || 2003||Nigeriasat 1 ||2
|-
|align="left"| || 2005 || Sina-1 || 1
|-
|align="left"| || 2006 || KazSat 1 || 1
|-
|align="left"| || 2007 || Libertad 1 ||1
|-
|align="left"| || 2008 || VINASAT-1 ||1
|}
While Canada was the third country to build a satellite which was launched into space, it was launched aboard a U.S. rocket from a U.S. spaceport. The same goes for Australia, who launched on-board a donated Redstone rocket. The first Italian-launched was San Marco 1, launched on 15 December, 1964 on a U.S. Scout rocket from Wallops Island (VA,USA) with an Italian Launch Team trained by NASA. Australia's launch project, in November 1967, involved a donated U.S. missile and U. S. support staff as well as a joint launch facility with the United Kingdom. Kazakhstan claimed to have made their satellite independently, but the satellite was built with Russian help, like Polish and Bulgarian ones earlier..
Attacks on satellites
In recent times satellites have been hacked by militant organisations to broadcast propaganda and to pilfer classified information from military communication networks.
Satellites in low earth orbit have been destroyed by ballistic missiles launched from earth. Both Russia and the United States have demonstrated ability to eliminate satellites. In 2007 the Chinese military shot down an aging weather satellite,
Russia and the United States have also shot down satellites during the Cold war.
Jamming
Due to the low received signal strength of satellite transmissions they're prone to Radio jamming by land-based transmitters. Such jamming is limited to the geographical area within the transmitter's range. GPS satellites are potential targets for jamming, but satellite phone and television signals have also been subjected to jamming.
Satellite Services
Satellite Internet access
Satellite phone
Satellite radio
Satellite television
Satellite navigationFurther Information
Get more info on 'Satellites'.
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