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  • Boeing is no stranger to space.

  • This company has been there since the beginning, playing a pivotal role in programs like Project

  • Mercury, Apollo, and now, Artemis.

  • So it was no surprise that in 2014, NASA awarded Boeing a $4.2 billion dollar contract to build

  • and operate a commercial crew capsule for its astronauts.

  • Starliner had a successful pad abort test in early November, but this next step may

  • be its most important yet.

  • In December 2019, Boeing will embark on its very first Orbital Flight Test of Starliner,

  • and if it's successful, it will mean that the U.S. will once again be able to launch

  • astronauts from its own soil.

  • Starliner has the ability to operate on its own without a pilot.

  • The capsule can accommodate up to seven passengers, or a mix of crew and cargo.

  • As for its shape, Boeing stuck to the classic triangular look of previous crew capsules

  • because of its great track record as an efficient design for atmospheric re-entry.

  • In terms of rocket power, it's well equipped with 60 thrusters on board: now that might seem

  • like a lot, but each of these play a critical role in Starliner's design.

  • Nearly all of them, 48 in total, are dedicated for on-orbit maneuvering. These thrusters

  • help to propel Starliner with precision toward its destination, the ISS.

  • Those 48 engines are located on the service module, while the last 12 keep the crew module

  • properly oriented on reentry.

  • In the event of an emergency, Starliner also has four large rocket motors in the service

  • module.

  • Built by Aerojet Rocketdyne, the engines will provide over 710 kilonewtons of thrust to

  • push the astronauts away from a possible malfunctioning rocket.

  • Safety is paramount since Boeing is scheduled to make at least six trips to the ISS, shuttling

  • up to four NASA-sponsored crewmembers and cargo.

  • But Starliner does have something that sets it apart from all others.

  • Right now, it's the first U.S. built craft that's certified for land-based returns.

  • That's partially what makes Starliner reusable, since previous U.S. capsules that landed in

  • the salty, corrosive ocean water, were made unsuitable for future use.

  • So to make that smooth landing, Starliner will be using a combination of airbags and

  • parachutes, allowing the capsule to be reused up to 10 times.

  • The spacecraft is built to withstand long stays in space, up to 210 days, so astronauts

  • will return to Earth on the same capsule they arrived on.

  • Starliner will be lifted into space on top of United Launch Alliance's Atlas V rocket.

  • Standing at 60 meters tall, the Atlas V delivers roughly 10,600 kiloNewton of thrust at liftoff,

  • carrying roughly 20,000 kg into low Earth orbit.

  • Since its first fight in 2002, the rocket has had 80 successful flights, carrying everything

  • from satellites to interplanetary spacecraft into orbit.

  • But Starliner's upcoming crewed launch will be the first time the Atlas V carries humans

  • to the ISS.

  • So what can we expect on the day of the Orbital Test Flight?

  • The Atlas V rocket will liftoff from Cape Canaveral's Space Launch Complex 41 with

  • the uncrewed Starliner capsule onboard.

  • Roughly 15 minutes after takeoff, the Atlas V's Centaur upper stage will separate from

  • Starliner.

  • From there, Starliner will power on its thrusters for an orbital insertion maneuver, and once

  • in orbit, it will continue on its way to the ISS.

  • As it approaches, the spacecraft will autonomously dock with the station's adapter.

  • When it's completed its stay on the ISS, Starliner will undock and prepare itself for

  • its descent.

  • The service module will begin its deorbit burn, decreasing Starliner's orbital speeds

  • to allow for it to safely detach from the crew module.

  • At roughly nine kilometers from the ground, a series of parachutes will begin to deploy

  • to help to slow down the capsule.

  • And finally, at less than a kilometer, airbags will inflate to cushion the capsule's landing

  • on solid ground.

  • If all goes well, the company's next launch will be its most crucial yet: taking NASA

  • astronauts Mike Fincke and Nicole Mann and Boeing astronaut Chris Ferguson for a historic

  • flight to the ISS.

  • Are there any upcoming launches that you'd like to see us cover?

  • Let us know in the comments below.

  • And for more rocket launches, check out our Countdown to Launch playlist here.

  • Make sure to subscribe and thanks for watching.

Boeing is no stranger to space.

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