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Booster (rocketry)

A GEM-40 strap-on booster for a Delta II launch vehicle.

A booster rocket (or engine) is either the first stage of a multistage launch vehicle, or else a shorter-burning rocket used in parallel with longer-burning sustainer rockets to augment the space vehicle's takeoff thrust and payload capability.[1][2] (Boosters used in this way are frequently designated "zero stages".)[citation needed] Boosters are traditionally necessary to launch spacecraft into low Earth orbit (absent a single-stage-to-orbit design), and are especially important for a space vehicle to go beyond Earth orbit.[citation needed] The booster is dropped to fall back to Earth once its fuel is expended, a point known as booster engine cut-off (BECO).[citation needed] The rest of the launch vehicle continues flight with its core or upper-stage engines. The booster may be recovered and reused, as was the case of the Space Shuttle.[1]



A 'fire dragon rising out of the water' (huo long chu shui) multistage rocket from the Huolongjing, it may be regarded as an ancestor to the modern exocet.

In the 14th century Chinese military treatise Huolongjing by the Ming dynasty military writer and philosopher Jiao Yu shows the oldest known multistage rocket with rocket boosters.[3] The Huolongjing describes and illustrates the oldest known multistage rocket.[4][5] It was a two-stage rocket that had carrier or booster rockets that would automatically ignite a number of smaller rocket arrows that were shot out of the front end of the missile, which was shaped like a dragon's head with an open mouth, before eventually burning out.[5] This multi-stage rocket may be considered the ancestor to the modern YingJi-62 ASCM.[5][6] The British scientist, sinologist, and historian Joseph Needham points out that the written material and depicted illustration of this rocket come from the oldest stratum of the Huolongjing, which can be dated roughly from 1300–1350 AD.[5]

Drop-away enginesEdit

The SM-65 Atlas rocket used three engines, one of which was fixed to the fuel tank, and two of which were mounted on a skirt which dropped away at BECO. This was used as an Intercontinental ballistic missile (ICBM); to launch the manned Project Mercury capsule into orbit; and as the first stage of the Atlas-Agena and Atlas-Centaur launch vehicles.[citation needed]


The Titan III, used by the United States Air Force as an unmanned heavy-lift vehicle, was developed from the Titan II launch vehicle by adding a pair of strap-on solid rocket boosters (SRB). It was also planned to be used for the Manned Orbital Laboratory program, cancelled in 1969.[citation needed] Strap-on boosters are sometimes used to augment the payload or range capability of military jet aircraft.[citation needed]

NASA's Space Shuttle was the first manned vehicle to use solid-fueled boosters as strap-ons. The solid boosters consisted of stacked segments, and were recovered and reused multiple times.[citation needed]


The booster casings for the Space Shuttle Solid Rocket Booster were recovered and refurbished for reuse from 1981–2011 as part of the Space Shuttle program.

In a new development program initiated in 2011, SpaceX developed reusable first stages of their Falcon 9 rocket. After launching the second stage and the payload, the booster returns to launch site or flies to a drone ship and lands vertically. After landing multiple boosters both on land and on drone ships, a landed stage was first flown again in March 2017: Rocket core B1021 was used to launch both a re-supply mission to the ISS in April 2016 and the satellite SES-10 in March 2017.[7] The program is intended to reduce launch prices significantly.

Use in aviationEdit

Rocket boosters used on aircraft are known as Jet-Assisted TakeOff and Landing (JATOL) rockets.

Various missiles also use solid rocket boosters. Examples are:

See alsoEdit


  1. ^ a b "Rocket Staging". US: NASA. Retrieved October 12, 2018.
  2. ^ "Solid Rocket Boosters". US: NASA. Retrieved October 12, 2018.
  3. ^ Liu, Cixin (2016). Death's End (Remembrance of Earth's Past). Tor Books. p. 80.
  4. ^ "火龙出水(明)简介". 星辰在线. 2003-12-26. Archived from the original on March 3, 2009. Retrieved July 17, 2008.
  5. ^ a b c d Needham, Volume 5, Part 7, 510.
  6. ^ "中国YJ-62新型远程反舰导弹". 大旗网. 2007-09-30. Retrieved July 17, 2008.[permanent dead link]
  7. ^ SpaceX makes aerospace history with successful launch and landing of used rocket Retrieved 15 April 2017