22-626: Thor-Agena was a series of orbital launch vehicles . The launch vehicles used the Douglas -built Thor first stage and the Lockheed -built Agena second stages. They are thus cousins of the more-famous Thor-Deltas, which founded the Delta rocket family. The first attempted launch of a Thor-Agena was in January 1959. The first successful launch was on 28 February 1959, launching Discoverer 1 . It
44-540: A rocket stage may be recovered while others are not. The Space Shuttle , for example, recovered and reused its solid rocket boosters , the Space Shuttle orbiter that also acted as a second stage, and the engines used by the core stage (the RS-25 , which was located at the back of the orbiter), however the fuel tank that the engines sourced fuel from, which was separate from the engines, was not reused. For example,
66-647: Is developing the first stage of the orbital New Glenn LV to be reusable, with first flight planned for no earlier than 2024. SpaceX has a new super-heavy launch vehicle under development for missions to interplanetary space . The SpaceX Starship is designed to support RTLS, vertical-landing and full reuse of both the booster stage and the integrated second-stage/large-spacecraft that are designed for use with Starship. Its first launch attempt took place in April 2023; however, both stages were lost during ascent. The fifth launch attempt ended with Booster 12 being caught by
88-653: Is typically a rocket -powered vehicle designed to carry a payload (a crewed spacecraft or satellites ) from Earth's surface or lower atmosphere to outer space . The most common form is the ballistic missile -shaped multistage rocket , but the term is more general and also encompasses vehicles like the Space Shuttle . Most launch vehicles operate from a launch pad , supported by a launch control center and systems such as vehicle assembly and fueling. Launch vehicles are engineered with advanced aerodynamics and technologies, which contribute to high operating costs. An orbital launch vehicle must lift its payload at least to
110-695: The European Space Agency is responsible for the Ariane V , and the United Launch Alliance manufactures and launches the Delta IV and Atlas V rockets. Launchpads can be located on land ( spaceport ), on a fixed ocean platform ( San Marco ), on a mobile ocean platform ( Sea Launch ), and on a submarine . Launch vehicles can also be launched from the air . A launch vehicle will start off with its payload at some location on
132-645: The University of Arizona Institute for Atmospheric Physics investigated the phenomena and linked it to the Thor launch vehicle launch after contacting military personnel at Vandenberg Air Force Base. When the launch records were later declassified, the United States Air Force released a memo explaining that the cloud was the result of a military operation. Thor-Agena A : Thor-Agena B : Thor-Agena D : Launch vehicle A launch vehicle
154-444: The upper stage of the launch vehicle or launched to a geostationary transfer orbit (GTO). A direct insertion places greater demands on the launch vehicle, while GTO is more demanding of the spacecraft. Once in orbit, launch vehicle upper stages and satellites can have overlapping capabilities, although upper stages tend to have orbital lifetimes measured in hours or days while spacecraft can last decades. Distributed launch involves
176-472: The 2000s and launch vehicles with integrated distributed launch capability built in began development in 2017 with the Starship design. The standard Starship launch architecture is to refuel the spacecraft in low Earth orbit to enable the craft to send high-mass payloads on much more energetic missions. After 1980, but before the 2010s, two orbital launch vehicles developed the capability to return to
198-548: The accomplishment of a goal with multiple spacecraft launches. A large spacecraft such as the International Space Station can be constructed by assembling modules in orbit, or in-space propellant transfer conducted to greatly increase the delta-V capabilities of a cislunar or deep space vehicle. Distributed launch enables space missions that are not possible with single launch architectures. Mission architectures for distributed launch were explored in
220-539: The booster stage of a launch vehicle. After 2010, SpaceX undertook a development program to acquire the ability to bring back and vertically land a part of the Falcon 9 orbital launch vehicle: the first stage . The first successful landing was done in December 2015, since 2017 rocket stages routinely land either at a landing pad adjacent to the launch site or on a landing platform at sea, some distance away from
242-838: The boundary of space, approximately 150 km (93 mi) and accelerate it to a horizontal velocity of at least 7,814 m/s (17,480 mph). Suborbital vehicles launch their payloads to lower velocity or are launched at elevation angles greater than horizontal. Practical orbital launch vehicles use chemical propellants such as solid fuel , liquid hydrogen , kerosene , liquid oxygen , or hypergolic propellants . Launch vehicles are classified by their orbital payload capacity, ranging from small- , medium- , heavy- to super-heavy lift . Launch vehicles are classed by NASA according to low Earth orbit payload capability: Sounding rockets are similar to small-lift launch vehicles, however they are usually even smaller and do not place payloads into orbit. A modified SS-520 sounding rocket
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#1732772711331264-442: The ground. In contrast, reusable launch vehicles are designed to be recovered intact and launched again. The Falcon 9 is an example of a reusable launch vehicle. As of 2023, all reusable launch vehicles that were ever operational have been partially reusable, meaning some components are recovered and others are not. This usually means the recovery of specific stages, usually just the first stage, but sometimes specific components of
286-528: The launch site (RTLS). Both the US Space Shuttle โwith one of its abort modes โand the Soviet Buran had a designed-in capability to return a part of the launch vehicle to the launch site via the mechanism of horizontal-landing of the spaceplane portion of the launch vehicle. In both cases, the main vehicle thrust structure and the large propellant tank were expendable , as had been
308-561: The launch site. The Falcon Heavy is similarly designed to reuse the three cores comprising its first stage. On its first flight in February 2018, the two outer cores successfully returned to the launch site landing pads while the center core targeted the landing platform at sea but did not successfully land on it. Blue Origin developed similar technologies for bringing back and landing their suborbital New Shepard , and successfully demonstrated return in 2015, and successfully reused
330-514: The launch tower, and Ship 30, the upper stage, successfully landing in the Indian Ocean. Medium-lift launch vehicle A medium-lift launch vehicle ( MLV ) is a rocket launch vehicle that is capable of lifting between 2,000 to 20,000 kg (4,400 to 44,100 lb) by NASA classification or between 5,000 to 20,000 kilograms (11,000 to 44,000 lb) by Russian classification of payload into low Earth orbit (LEO). An MLV
352-496: The same booster on a second suborbital flight in January 2016. By October 2016, Blue had reflown, and landed successfully, that same launch vehicle a total of five times. The launch trajectories of both vehicles are very different, with New Shepard going straight up and down, whereas Falcon 9 has to cancel substantial horizontal velocity and return from a significant distance downrange. Both Blue Origin and SpaceX also have additional reusable launch vehicles under development. Blue
374-472: The southwestern United States. Due to its mysterious nature, appearing at a very high altitude and being visible for hundreds of miles, the cloud attracted widespread attention and was published by the news media. The cloud was featured on the cover of Science Magazine in April 1963, Weatherwise Magazine in May 1963, and had a full page image published in the May issue of Life Magazine . Prof. James MacDonald at
396-428: The standard procedure for all orbital launch vehicles flown prior to that time. Both were subsequently demonstrated on actual orbital nominal flights, although both also had an abort mode during launch that could conceivably allow the crew to land the spaceplane following an off-nominal launch. In the 2000s, both SpaceX and Blue Origin have privately developed a set of technologies to support vertical landing of
418-502: The surface of the Earth. To reach orbit, the vehicle must travel vertically to leave the atmosphere and horizontally to prevent re-contacting the ground. The required velocity varies depending on the orbit but will always be extreme when compared to velocities encountered in normal life. Launch vehicles provide varying degrees of performance. For example, a satellite bound for Geostationary orbit (GEO) can either be directly inserted by
440-401: Was launched on a Thor-Agena B. On 28 February 1963, a Thor-Agena launch vehicle carrying a spy satellite into orbit was launched from Vandenberg Air Force Base . The launch vehicle went off course and mission control detonated the launch vehicle at an altitude of 44 km (27 mi) before it could reach orbit. The launch vehicle detonation produced a large circular cloud that appeared over
462-570: Was the first two-stage launch vehicle to place a satellite into orbit. Among other uses, the clandestine CORONA program used Thor-Agena from June 1959 until January 1968 to launch United States military reconnaissance satellites operated by the Central Intelligence Agency (CIA). During this program, Thor-Agena launch vehicles were used in 145 launch attempts, now known to have been part of satellite surveillance programs. Also, Alouette 1 , Canada 's first satellite,
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#1732772711331484-596: Was used to place a 4-kilogram payload ( TRICOM-1R ) into orbit in 2018. Orbital spaceflight requires a satellite or spacecraft payload to be accelerated to very high velocity. In the vacuum of space, reaction forces must be provided by the ejection of mass, resulting in the rocket equation . The physics of spaceflight are such that rocket stages are typically required to achieve the desired orbit. Expendable launch vehicles are designed for one-time use, with boosters that usually separate from their payload and disintegrate during atmospheric reentry or on contact with
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