This video shows how NASA’s James Webb Space Telescope is designed to fold to a much smaller size in order to fit inside the Ariane V rocket for launch to space. The largest, most complex space observatory ever built, must fold itself to fit within a 17.8-foot (5.4-meter) payload fairing, and survive the rigors of a rocket ride to orbit. After liftoff, the entire observatory will unfold in a carefully choreographed series of steps before beginning to make groundbreaking observations of the cosmos.
Europe’s Galileo satellite navigation system performed a giant leap nearer completion on Tuesday 12 December, as four more Galileo satellites were launched into orbit by Ariane 5.
Liftoff from Europe’s Spaceport in Kourou, French Guiana took place at 18:36 UTC (19:36 CET, 15:36 local time), carrying Galileo satellites 19–22. Separation of the upper stage occurred about nine minutes after liftoff, followed by the first firing of the upper stage. The upper stage – carrying four 715-kg Galileo satellites – flew in ballistic configuration for three hours and eight minutes, after which a second upper stage firing placed it into circular separation orbit. Once stabilised at 3h 35 min after liftoff, the Galileo dispenser released the first two satellites, followed by the second pair 20 minutes later.
At orbital injection the launcher attained an altitude of 22 925 km, approximately 300 km below the Galileo satellites’ operational altitude. The four satellites manoeuvred themselves up to this height, leaving the passivated upper stage safely in a ‘graveyard orbit’.
“Arianespace successfully launched two satellites [on November 10]: Arabsat-6B (BADR-7) for the operator Arabsat, and GSAT-15 for ISRO (Indian Space Research Organisation). The company’s tenth launch of the year from the Guiana Space Center (CSG), and sixth with the Ariane 5 heavy launcher, took place on November 10 at 6:34 pm local time in Kourou, French Guiana. Through this mission, the 69th successful launch in a row by Ariane 5, Arianespace is proud to deliver reliable, sustainable solutions to Arabsat and ISRO, two loyal customers for over 30 years.
Arabsat is the leading regional satellite telecommunications operator in the Middle East and Africa. Arabsat-6B (BADR 7) is the ninth satellite orbited by Arianespace for this operator since the launch of Arabsat-1A in 1985. This satellite is the first of the sixth generation of satellites in the Arabsat fleet. It will provide telecommunications and direct- to-home (DTH) TV broadcast services for the Middle East, Africa and Central Asia. In 2012 Arabsat also confirmed its goal of bolstering its position in the Europe-Middle East-Africa (EMEA) zone by acquiring the company Hellasat. Arianespace will be launching another Arabsat satellite, Hellasat-4.
GSAT-15 is the 19th satellite to be launched by Arianespace for ISRO (Indian Space Research Organisation). It will provide telecommunications services for the country, along with dedicated navigation-aid and emergency services. Arianespace has launched 91% of ISRO’s geostationary satellites that used non-Indian launch systems, dating back to the launch of the country’s experimental satellite APPLE on Flight L03 in 1981. The favored relationship between Arianespace and ISRO reflects the exemplary collaboration in the space sector between France and India, a partnership that will help ISRO realize its aim of using space to foster the development of the Indian sub-continent through a full range of satellite applications, for Earth observation, telecommunications, science and navigation.”
Further extending Ariane 5’s track record of highly accurate payload delivery, the estimated orbital parameters at injection of its cryogenic upper stage for Flight VA226 were:
– Perigee: 249.2 km. for a target of 249.5 km.
– Apogee: 35,911 km. for a target of 35,927 km.
– Inclination: 5.99 deg. for a target of 6.00 deg.
The first-released passenger on today’s mission was Sky Muster, which is the initial satellite to be operated by nbnâ„¢ – a service provider owned by the Commonwealth of Australia. This company’s objective is to ensure all Australians have access to fast broadband as soon as possible, at affordable prices and at the least cost to taxpayers. Built by Palo Alto-based SSL (Space Systems Loral), Sky Muster is scheduled to operate from geostationary orbit. It is designed to deliver broadband services to more than 200,000 rural and remote Australians, providing coverage to the entire country – including the Norfolk, Christmas, Macquarie and Cocos islands. Launch of nbn’s second spacecraft also has been entrusted to Arianespace. […]
Completing today’s mission was the deployment of ARSAT-2, which is the second of three geostationary satellites that will increase Argentina’s telecommunications capacity and guarantee the same level of connectivity quality across the country’s regions. Arianespace successfully orbited the first of these relay platforms – ARSAT-1 – on an Ariane 5 flight in October 2014. Built under the responsibility Argentina’s INVAP, ARSAT-2 will be operated by the state-owned Argentinian operator ARSAT (Empresa Argentina de Soluciones Satelitales Sociedad Anónima) to provide direct-to-home (DTH) television, Internet access services for reception on VSAT antennas, along with data transmission and IP telephony.”
“Liftoff of an Ariane 5 launcher from Europe’s spaceport in French Guiana with ESA’s last Automated Transfer vehicle to the Space Station. The fifth and final mission of ESA’s Automated Transfer Vehicle got off to a flying start with its launch from Europe’s Spaceport in Kourou, French Guiana, heading for the International Space Station. Georges Lemaître is the fifth ATV built and launched by ESA as part of Europe’s contribution to cover the operational costs for using the Space Station. Named after the Belgian scientist who formulated the Big Bang Theory, ATV Georges Lemaître lifted off at 23:47 GMT on 29 July (01:47 CEST 30 July, 20:47 local time 29 July) on an Ariane 5 ES rocket. The vehicle will deliver 6561 kg of freight, including 2628 kg of dry cargo and 3933 kg of water, propellants and gases.”
Arianespace was founded in 1980. With twenty-four shareholders from ten European countries (among which CNES holds 34% and EADS 30%), Arianespace is the world’s first commercial space transportation company.
The workhorse of Arianespace has been the Ariane launch vehicle.
Five versions of Ariane have served the company so far: Ariane 1, with the first successful launch on December 24, 1979, Ariane 2, launched for the first time on November 20, 1987, Ariane 3, starting its service on August 4, 1984, Ariane 4, launched on June 15, 1988, and Ariane 5, with the first successful flight on October 30, 1997.
The first launch of Ariane 5, a.k.a. Flight 501, ended with the vehicle being destroyed by its automated self-destruct system, after the high accelerations caused the inertial guidance system to crash. The crash was caused by, I quote, one of the most infamous computer bugs in history. If you like, you can take a look at the Ada code that caused the malfunction. But enough with the dark memories, this is an anniversary after all…
The challenges for 2010 are many, as Arianespace is planning up to seven Ariane 5 launches. Two new launch vehicles will join Ariane 5 as part of the Arianespace family of launchers: the Vega small launcher and the Soyuz medium launcher.
You can read more about Arianespace, its mission, and the solutions provided to customers around the world on the Arianespace website.
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