Not long after being placed into orbit, Hubble sent back a photo and it was blurry.
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The only problem is that, according to the Pentagon , no objects were actually placed into orbit during this exercise.
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Once you activate location services, that's when your phone starts to listen for satellites — yep, the ones placed into orbit on what's called a GPS constellation.
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Placed into orbit from a manned Discovery shuttle and named for the pioneering American astronomer Edwin Hubble, it became the first large optical telescope in space.
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Iran's telecoms minister said the rocket carrying the satellite did not reach "adequate speed" in the launch's third stage for the rocket to be placed into orbit.
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The European Space Agency said the probe's mother ship was successfully placed into orbit Wednesday and soon will begin analyzing the Martian atmosphere in search for evidence of life.
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At the time, the U.S. Strategic Command said it had detected a missile entering space, while South Korea's military said an object had been placed into orbit, Reuters reported.
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So far, only the Kwangmyŏngsŏng-3 Unit 2 satellite, launched in December 2012, has successfully been placed into orbit, and even that one experienced tumbling and control issues soon after.
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In the 60 years since the launch of Sputnik I—the first artificial object placed into orbit—space agencies have managed to create hundreds of millions of pieces of orbital debris.
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Named after astronomer Edwin P. Hubble, the foremost American astronomer of the 20th century, the sophisticated optical observatory was placed into orbit about 20093 kilometers (370 miles) above Earth by the crew of the Space Shuttle Discovery on April 25, 1990.
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The Ofek-7 is a follow-on spacecraft to Ofek-5 that was placed into orbit in 2002.
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Omid was the second Iranian satellite to be placed into orbit. A previous Iranian satellite, Sina-1, was built and launched for Iran by Russia in 2005.
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It is a hosted payload on the Spainsat satellite. The satellite, at 30 degrees West longitude, was placed into orbit in 2006. The coverage area includes North America, South America, Europe, Africa, and the Atlantic Ocean.
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Space Shuttle Atlantis carried a miniaturised satellite known as PSSC-2, or Picosatellite Solar Cell Testbed 2 into orbit. PSSC-2 was successfully deployed from the shuttle's cargo bay on flight day 13, becoming the 180th and last Space Shuttle payload to be placed into orbit.
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This was the 50th flight of the Polar Satellite Launch Vehicle. It was also the 75th launch from Sriharikota. The flight placed into orbit the RISAT-2BR1 and nine customer satellites for New Space India Ltd. It was the second flight of the PSLV in the QL configuration.
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The cause of the failure was reported to be an electrical problem, possibly caused by higher radiation levels encountered by the satellite in sun-synchronous orbit compared to previous satellites in lower-inclination orbits. The next Persona satellite was not launched until 2013, when it was placed into orbit as Kosmos 2486.
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Even if the rocket had targeted an actual Mars transfer orbit, the car could not have been placed into orbit around Mars, because the upper stage that carries it is not equipped with the necessary propellant, maneuvering, and communications capabilities. This flight simply demonstrated that Falcon Heavy is capable of launching significant payloads towards Mars in potential future missions.
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COSMO-1 or COSMO-Skymed 1 is an Italian radar imaging satellite. Launched in 2007, it was the first of four COSMO-Skymed satellites to be placed into orbit. The spacecraft is operated by the Agenzia Spaziale Italiana, the Italian space agency, in conjunction with Italy's Ministry of Defence. It uses synthetic aperture radar to produce images for civilian, commercial and military purposes.
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The United States National Space Science Data Center catalogued 157 spacecraft placed into orbit by launches which occurred in 1968. The first crewed Apollo missions occurred in 1968. It was also the year in which Earth lifeforms first left low Earth orbit, during the successful Zond 5 mission, and the year that humans first left low Earth orbit, during the successful Apollo 8 mission.
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This marked the final purchase of Delta IIs. OCO-2 was launched on July 2, 2014, SMAP was launched on January 31, 2015, and JPSS-1 was launched on November 18, 2017. All three of these launches were placed into orbit from Complex 2 at Vandenberg. The Delta II family launched 155 times. Its only unsuccessful launches were Koreasat 1 in 1995, and GPS IIR-1 in 1997.
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NASA's Earth-observing fleet as of June 2012. A full-size model of the Earth observation satellite ERS 2 Orbit spectrum, also known as satellite spectrum, is a segment of a radio spectrum that became available when satellites are placed into orbit. This spectrum is a limited resource for every country. In order to ensure optimum utilization of orbit spectrum, the national administrations of countries worldwide undertake regular monitoring exercises.
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He organized the Commodity Command and established the Project Manager System as the exceedingly complex missile systems came into being. During his tenure, the Explorer, the first U.S. satellite, was developed and placed into orbit. He promoted good relations with industry, drawing in part on his World War II experiences with civilian manufacturers, by means of Industry Advisory Groups. The M14 rifle , utilizing 7.62mm cartridge, was developed during his time in office.
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Although no planetary probes were launched in 2009, four astronomical observatories were placed into orbit. The Kepler spacecraft, which was launched by a Delta II on 7 March, entered an Earth- trailing heliocentric orbit from where it will search for exoplanets. On 14 May, and Ariane 5ECA launched the Herschel and Planck spacecraft. Both were placed at the L2 Lagrangian point between the Earth and Sun, from where they will be used for astronomy.
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In total, seventy eight orbital launches were attempted in 2009, with seventy five catalogued as having reached orbit, and the three outright launch failures, including the North Korean launch, not being catalogued. This is an increase of nine attempts compared to 2008, and eight more launches reached orbit. This continues a four-year trend of increasing annual launch rates. The United States National Space Science Data Center catalogued 123 spacecraft placed into orbit by launches which occurred in 2009.
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Gemini 2 (Gemini-Titan 2; GT-2) was the second spaceflight of the American human spaceflight program Project Gemini, and was launched and recovered on January 19, 1965. Gemini 2, like Gemini 1, was an unmanned mission intended as a test flight of the Gemini spacecraft. Unlike Gemini 1, which was placed into orbit, Gemini 2 made a suborbital flight, primarily intended to test the spacecraft's heat shield. It was launched on a Titan II GLV rocket.
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The success of the KITSAT-1 program marked the beginning of space technology development for South Korea. Placed into orbit on August 10, 1992, and launched from Guiana Space Centre, its launch weight was 48.6 kg, and it measured 35.2 X 35.6 X 67 cm. The console of the University of Surrey UoSAT-5 satellite was used. KITSAT-1 was launched on an Ariane 4 rocket along with NASA's TOPEX/Poseidon satellite and France's S80/T satellite .
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The satellite got stuck in the fourth stage of the Polar Satellite Launch Vehicle–PSLV-C39. A replacement satellite, IRNSS-1I, was successfully placed into orbit on 12 April 2018. To boost the accuracy of NavIC system, ISRO is likely to extend the Indian Regional Navigation Satellite System programme with new IRNSS series which will be entirely a new project as per chairman K Sivan. The new IRNSS series is not meant to extend its coverage beyond the regional boundaries extending up to .
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The addition of a second-stage allowed the missile to increase its range to over 4750 km. The second satellite launch attempt on April 24, 1970 was successful. A CZ-1 was used to launch the 173 kg Dong Fang Hong I (东方红一号, meaning The East Is Red I), also known as Mao-1. It was the heaviest first satellite placed into orbit by a nation, exceeding the combined masses of the first satellites of the other four previous countries.
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Enhanced Imaging System (EIS), officially referred to as "Enhanced Imagery System", previously known as 8X, and sometimes unofficially known as Misty 2 and KH-13, is an American reconnaissance satellite program. A derivative of the Improved Crystal satellites, EIS replaced Misty, and was intended to provide more coverage and dwell time than previous reconnaissance satellites; like Misty, it has stealth capabilities. Only one EIS satellite has been launched; USA-144, which was placed into orbit by a Titan IVB rocket on 22 May 1999.
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The GPS system was designed by and is controlled by the United States Department of Defense and can be used by anyone, free of charge. The cost of maintaining the system is approximately US$400 million per year, including the replacement of ageing satellites. The first of 24 satellites that form the current GPS constellation (Block II) was placed into orbit on February 14, 1989. The 52nd GPS satellite since the beginning in 1978 was launched November 6, 2004 aboard a Delta II rocket.
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The second standby satellite, IRNSS-1I, was successfully placed into orbit on 12 April 2018. In July 2017, it was reported that two more clocks in the navigational system had also started showing signs of abnormality, thereby taking the total number of failed clocks to five, in May 2018 a failure of a further 4 clocks was reported, taking the count to 9 of the 24 in orbit. As a precaution to extend the operational life of navigation satellite, ISRO is running only one rubidium atomic clock instead of two in the remaining satellites.
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One of the major scientific focuses of the Ariel 2 mission was to characterize galactic radio emissions at frequencies below 10MHz. Such frequencies are difficult to observe from Earth due to the influence of the ionosphere. It was known that a non-directional antenna operating at frequencies below 10MHz would be sensitive to galactic radio sources, with only a small contribution due to other sources. The Ariel 2 satellite had a 40m non-directional antenna that was essentially a long wire that was ejected from the satellite after being placed into orbit.
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After the failure of their Viking rocket in its first satellite launch attempt, this mission was taken away from the U.S. Naval Research Laboratory and given to the von Braun team at ABMA. On 31 January 1958, America's first satellite, Explorer I, was placed into orbit. BECO had an involvement in this historic effort, providing support in the design and testing of both the vehicle and the payload.”Jupiter C Puts Up Moon – Eisenhower Officially Announces Huntsville Satellite Circles Globe”; “9 Labs Here Aided Project Launching”; The Huntsville Times, Satellite EXTRA, 1 Feb, 1958, p.
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Genesis I, the first Bigelow Aerospace module to be placed into orbit On July 12, 2006, Genesis I launched on a Dnepr booster from Dombarovskiy Cosmodrome in Orenburg Oblast, Russia. The launch was conducted by Bigelow and ISC Kosmotras. Despite ground-side difficulties during launch, the spacecraft performed as expected upon reaching orbit, inflating, deploying solar arrays and starting internal systems. The mission is planned to last for five years and include extensive observation of the craft's performance including testing packing/deployment procedures and resistance to radiation and space debris, among other space hazards and conditions.
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USA-42, also known as GPS II-3 and GPS SVN-16, was an American navigation satellite which formed part of the Global Positioning System. It was the third of nine Block II GPS satellites to be launched, which were the first operational GPS satellites to be placed into orbit. USA-42 was launched at 05:57:59 UTC on 18 August 1989, atop a Delta II carrier rocket, flight number D186, flying in the 6925 configuration. The launch took place from Launch Complex 17A at the Cape Canaveral Air Force Station, and placed USA-42 into a transfer orbit.
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The project came to a more complex situation in 2001 when the ComeBack category was added, according to which the satellite should be directed to a particular target. This mission was very successful and, in 2002, students of Space Robotics Lab of the Tohoku University went up to 45 meters from the target and, in 2006, this figure dropped to 6 meters. Interest in this type of satellite has been growing and spreading. In 2003, the University of Tokyo placed into orbit two satellites CubeSat, satellites of a size slightly larger than the CanSats, and cube shaped.
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According to SatNews Publishers, Anik F3 is a broadcasting and telecommunications satellite which will provide direct-to-home television in the United States, broadband Internet and telecommunications for Bell Canada, and broadcast TV in northern and other remote areas of Canada. It was built by EADS Astrium and launched on a Proton-M rocket. It was successfully placed into orbit by International Launch Services, who also launched Anik F1R, Nimiq 1 and Nimiq 2. However, previous to launch, it was announced that Dish would be leasing the entire capacity of Anik F3 for its entire estimated life of approximately 15 years.
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To complete the scientific experiment and communicate with the satellite on several occasions the orbit chosen was a sun–synchronous circular orbit at an altitude of 670 kilometers. ESTCube-1 was launched into orbit by Arianespace, using Vega VV02 rocket which lifted off from ELA-1 at Kourou at 02:06:31 UTC on 7 May 2013. The satellite was placed into orbit and communication successfully established,Matteo Emanuelli, Estonian Cubesat on a Collision Course with Iridium-Cosmos Debris, August 1, 2013, Space Safety News (accessed Aug. 16 2013) with the first photo of the Earth taken on May 15 and transmitted to the ground on the amateur radio band.
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Since 1984 military rockets of the types Hwasong, Rodong and Taepodong-1 were launched from Musudan-ri. In 1998, North Korean media reported the successful launch of the Kwangmyŏngsŏng-1 satellite by a Baekdusan-1 SLV from Musudan-ri. North Korea claimed their first satellite was successfully placed into orbit, but no independent sources have confirmed this. A review of the rocket engine test stand on DigitalGlobe imagery coverage from February 15, 2002 to February 26, 2009 revealed a variety of activity, including drying grain on the concrete, the presence of cylindrical storage tanks and the arrival/departure of multiple support vehicles and personnel.
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The year 1967 in spaceflight saw more orbital launches than any other year before or since, including that of the first Australian satellite, WRESAT, which was launched from the Woomera Test Range atop an American Sparta rocket. The United States National Space Science Data Center catalogued 172 spacecraft placed into orbit by launches which occurred in 1967. The year saw both setbacks and advances for the United States Apollo programme. Three astronauts; Virgil "Gus" Grissom, Ed White and Roger B. Chaffee, were killed in a fire aboard the AS-204 spacecraft at Cape Kennedy Launch Complex 34 on 27 January whilst rehearsing the launch.
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The Intelsat IV F-3 was part of the Intelsat IV series which consisted of 6 satellites, of which five were successfully placed into orbit. All five satellites in the series were retired and operated an average of almost 4 years beyond their life expectancies. The satellite antenna allowed coverage from the land masses on both sides of the Atlantic basin with four point beams and had sufficient insulation between the east beams and the western beams that used the same frequencies in the east and west. The separation of the beam by directional antenna allowed this dual use of the frequency, significantly increasing the capacity of satellite communication within an assigned frequency range.
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The Intelsat IVA F-1 was part of the Intelsat IVA series which consisted of 6 satellites, of which five were successfully placed into orbit. All five satellites in the series were retired and operated an average of almost 4 years beyond their life expectancies. The satellite antenna allowed coverage from the land masses on both sides of the Atlantic basin with four point beams and had sufficient insulation between the east beams and the western beams that used the same frequencies in the east and west. The separation of the beam by directional antenna allowed this dual use of the frequency, significantly increasing the capacity of satellite communication within an assigned frequency range.
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The Intelsat IVA F-5 was part of the Intelsat IVA series which consisted of 6 satellites, of which five were successfully placed into orbit. All five satellites in the series were retired and operated an average of almost 4 years beyond their life expectancies. The satellite antenna allowed coverage from the land masses on both sides of the Atlantic basin with four point beams and had sufficient insulation between the east beams and the western beams that used the same frequencies in the east and west. The separation of the beam by directional antenna allowed this dual use of the frequency, significantly increasing the capacity of satellite communication within an assigned frequency range.
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The Intelsat IVA F-6 was part of the Intelsat IVA series which consisted of 6 satellites, of which five were successfully placed into orbit. All five satellites in the series were retired and operated an average of almost 4 years beyond their life expectancies. The satellite antenna allowed coverage from the land masses on both sides of the Atlantic basin with four point beams and had sufficient insulation between the east beams and the western beams that used the same frequencies in the east and west. The separation of the beam by directional antenna allowed this dual use of the frequency, significantly increasing the capacity of satellite communication within an assigned frequency range.
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The Intelsat IVA F-3 was part of the Intelsat IVA series which consisted of 6 satellites, of which five were successfully placed into orbit. All five satellites in the series were retired and operated an average of almost 4 years beyond their life expectancies. The satellite antenna allowed coverage from the land masses on both sides of the Atlantic basin with four point beams and had sufficient insulation between the east beams and the western beams that used the same frequencies in the east and west. The separation of the beam by directional antenna allowed this dual use of the frequency, significantly increasing the capacity of satellite communication within an assigned frequency range.
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The Intelsat IVA F-4 was part of the Intelsat IVA series which consisted of 6 satellites, of which five were successfully placed into orbit. All five satellites in the series were retired and operated an average of almost 4 years beyond their life expectancies. The satellite antenna allowed coverage from the land masses on both sides of the Atlantic basin with four point beams and had sufficient insulation between the east beams and the western beams that used the same frequencies in the east and west. The separation of the beam by directional antenna allowed this dual use of the frequency, significantly increasing the capacity of satellite communication within an assigned frequency range.
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The Intelsat IVA F-2 was part of the Intelsat IVA series which consisted of 6 satellites, of which five were successfully placed into orbit. All five satellites in the series were retired and operated an average of almost 4 years beyond their life expectancies. The satellite antenna allowed coverage from the land masses on both sides of the Atlantic basin with four point beams and had sufficient insulation between the east beams and the western beams that used the same frequencies in the east and west. The separation of the beam by directional antenna allowed this dual use of the frequency, significantly increasing the capacity of satellite communication within an assigned frequency range.
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On February 13, 2012, three PPODs deployers containing seven CubeSats were placed into orbit along with the Lares satellite aboard a Vega rocket launched from French Guiana. The CubeSats launched were e-st@r Space (Politecnico di Torino, Italy), Goliat (University of Bucarest, Romania), MaSat-1 (Budapest University of Technology and Economics, Hungary), PW-Sat (Warsaw University of Technology, Poland), Robusta (University of Montpellier 2, France), UniCubeSat-GG (University of Rome La Sapienza, Italy), and XaTcobeo (University of Vigo and INTA, Spain). The CubeSats were launched in the framework of the "Vega Maiden Flight" opportunity of the European Space Agency. On September 13, 2012, eleven CubeSats were launched from eight P-PODs, as part of the "OutSat" secondary payload aboard a United Launch Alliance Atlas V rocket.
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In some cases, the fairing is planned to separate after cutoff of the upper stage, and in others, the separation is to occur before a cutoff, but after the vehicle has transcended the densest part of the atmosphere. Failure of the fairing to separate in these cases may cause the craft to fail to reach orbit, due to the extra mass. The Augmented Target Docking Adapter in orbit, with its payload fairing still attached The Augmented Target Docking Adapter, to be used for the Gemini 9A crewed mission, was successfully placed into orbit by an Atlas SLV-3 in June 1966. But when the Gemini crew rendezvoused with it, they discovered the fairing had failed to open and separate, making docking impossible.
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Conventional wisdom at the time was that it would require too much rocket power to place a satellite in a geostationary orbit and it would not survive long enough to justify the expense, so early efforts were put towards constellations of satellites in low or medium Earth orbit. The first of these were the passive Echo balloon satellites in 1960, followed by Telstar 1 in 1962. Although these projects had difficulties with signal strength and tracking, that could be solved through geostationary satellites, the concept was seen as impractical, so Hughes often withheld funds and support. By 1961, Rosen and his team had produced a cylindrical prototype with a diameter of , height of , weighing , light and small enough to be placed into orbit.
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This was the largest number of CubeSats (and largest volume of 24U) successfully placed to orbit on a single launch, this was made possible by use of the new NPS CubeSat Launcher system (NPSCuL) developed at the Naval Postgraduate School (NPS). The following CubeSats were placed in orbit: SMDC-ONE 2.2 (Baker), SMDC-ONE 2.1 (Able), AeroCube 4.0(x3), Aeneas, CSSWE, CP5, CXBN, CINEMA, and Re (STARE). Five CubeSats (Raiko, Niwaka, We- Wish, TechEdSat, F-1) were placed into orbit from the International Space Station on October 4, 2012, as a technology demonstration of small satellite deployment from the ISS. They were launched and delivered to ISS as a cargo of Kounotori 3, and an ISS astronaut prepared the deployment mechanism attached to Japanese Experiment Module's robotic arm.
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Türksat 1A was a Turkish communications satellite as part of a project to form an instant network with two geosynchronous satellites that is supervised by the companies Türksat A.Ş. in Turkey and Aérospatiale of France. Turkey's first spacecraft in its space program, Türksat 1A was launched by Arianespace atop an Ariane-44LP H10+ launch vehicle, along with the French satellite Eutelsat 2F5, in a dual-payload launch on January 24, 1994 at 21:37:00 UTC from ELA-2 at the Guiana Space Centre in Kourou, French Guiana. It failed to reach the orbit as it was lost by falling into ocean due to malfunction of the launch vehicle's last stage 12 minutes and 12 seconds after lift-off. After successful launching of Türksat 1B the same year, Türksat 1A's mission was replaced by Türksat 1C, which was placed into orbit in 1996.
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At the end, Leinster breaks the 4th wall and informs the reader that he has attempted to describe a realistic scenario whereby a space station would be placed into orbit. He indicates the advantage of launch sites near to the equator, and describes a multi-stage launch process which begins with the use of numerous small jet-powered craft ("pushpots") to lift the station and begin its flight, JATOs aboard the pushpots to accelerate it to several thousand MPH, and finally solid fuel rockets which minimize weight by burning away their tubes as the propellant combusts. The descriptions of the Platform's heavy (steel) construction are unrealistic, given that weight is recognized as crucial. Suggesting that launchers will combust Beryllium in Fluorine to maximize energy per unit of fuel is not incorrect as far as energy release, but downplays spectacular corrosion and toxicity problem.
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A 1993 Magellan Trailblazer XL GPS Handheld Receiver Vehicle navigation on a personal navigation assistant Garmin eTrex10 edition handheld A satellite navigation device, colloquially called a GPS receiver, or simply a GPS, is a device that is capable of receiving information from GNSS satellites and then to calculate the device's geographical position. Using suitable software, the device may display the position on a map, and it may offer routing directions. The Global Positioning System (GPS) is one of a handful of global navigation satellite systems (GNSS) made up of a network of a minimum of 24, but currently 30, satellites placed into orbit by the U.S. Department of Defense. GPS was originally developed for use by the United States military, but in the 1980s, the United States government allowed the system to be used for civilian purposes.
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The plains of Pluto, as seen by New Horizons after its nearly 10-year voyage Remotely guided space probes have flown by all of the planets of the Solar System from Mercury to Neptune, with the New Horizons probe having flown by the dwarf planet Pluto and the Dawn spacecraft currently orbiting the dwarf planet Ceres. The most distant spacecraft, Voyager 1 and Voyager 2 have left the Solar System as of while Pioneer 10, Pioneer 11, and New Horizons are on course to leave it. In general, planetary orbiters and landers return much more detailed and comprehensive information than fly-by missions. Space probes have been placed into orbit around all the five planets known to the ancients: The first being Venus (Venera 7, 1970), Jupiter (Galileo, 1995), Saturn (Cassini/Huygens, 2004), and most recently Mercury (MESSENGER, March 2011), and have returned data about these bodies and their natural satellites.
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