On May 27, SpaceX will launch two NASA astronauts to the International Space Station in the first-ever crewed test flight of its Crew Dragon astronaut taxi.
The mission, called Demo-2, will lift off on a SpaceX Falcon 9 rocket from NASA’s historic Pad 39A at the Kennedy Space Center in Cape Canaveral, Florida, with NASA astronauts Doug Hurley and Bob Behnken on board. Liftoff is scheduled for 4:33 p.m. EDT (2033 GMT), and the Crew Dragon is expected to arrive at the International Space Station about 19 hours later.
Here’s a step-by-step explainer of what will happen during the Demo-2 mission, from prelaunch preparations through the astronauts’ return to Earth.
Astronauts arrive in style
Donning their SpaceX spacesuits, NASA astronauts Doug Hurley (left) and Bob Behnken wave after walking out of the Neil A. Armstrong Operations and Checkout Building at Kennedy Space Center in Florida on Jan. 17, 2020, during a dress rehearsal ahead of the SpaceX uncrewed In-Flight Abort Test. (Image credit: Kim Shiflett/NASA)
While NASA astronauts heading to their rockets on the day of a launch have traditionally traveled to their launchpads in a retro-style “Astrovan,” Demo-2 astronauts Doug Hurley (left) and Bob Behnken will be rolling up to their Falcon 9 rocket in shiny Tesla Model X sports cars. This comes as no surprise to SpaceX fans; Elon Musk, the founder of both SpaceX and Tesla, famously launched a cherry-red Tesla Roadster into space on a Falcon Heavy rocket in 2018.
But before Behnken and Hurley hop inside their fancy car the astronauts will start their day by scarfing down a hefty breakfast at their crew quarters, which is a 9-mile (14 kilometers) drive from the launch pad. Breakfast is scheduled for T-minus 5 hours, and once the astronauts have stuffed their faces, they’ll have to squeeze into their spacesuits. They are expected to arrive at the launch pad about 3 hours before liftoff.
Astronauts board via the crew access arm
SpaceX’s first Crew Dragon spacecraft for the uncrewed Demo-1 mission is seen atop its Falcon 9 rocket at Launch Pad 39A of NASA’s Kennedy Space Center in Cape Canaveral, Florida in February 2019. (Image credit: SpaceX)
At T-minus 2 hours and 15 minutes, Behnken and Hurley will enter the Crew Dragon spacecraft. To board it, the astronauts will use a brand-new crew access arm, a hallway-like bridge that SpaceX added to NASA’s historic Pad 39A during renovations for commercial crew launches. Ground crews will make sure the astronauts are safely buckled up inside the spacecraft before closing the hatch at T-minus 1 hour and 50 minutes.
The walkway connects the Fixed Service Structure (FSS) of Pad 39A to the tip of the Falcon 9 rocket, where the astronauts will board the Crew Dragon. Because Falcon 9 rockets are taller than the space shuttles that used to launch from Pad 39A, the new access arm is about 70 feet (21 meters) higher than the orbiter access arm that was previously attached to the FSS for 30 years.
This still from SpaceX’s Demo-2 mission animation shows the Falcon 9 rocket lifting off with the Crew Dragon spacecraft. (Image credit: SpaceX)
The Falcon 9 rocket carrying Behnken and Hurley to orbit is scheduled to lift off from Launch Complex 39A at NASA’s Kennedy Space Center in Cape Canaveral, Florida on Wednesday (May 27) at 4:33 p.m. EDT (2033 GMT).
Four hours and 30 minutes before liftoff, the Air Force’s 45th Weather Squadron will determine the possibility of having good launch weather, and they will announce an updated launch forecast. If the weather doesn’t cooperate (or if the launch is scrubbed for any other reason), the backup launch date is on May 30.
Falcon 9 booster returns
The Falcon 9 booster separates from the rocket’s second stage in this still image from SpaceX’s Demo-2 mission animation. (Image credit: SpaceX)
About 2.5 minutes after liftoff, the Falcon 9’s first stage booster will separate from the upper stage and begin preparations for a landing back on Earth.
SpaceX plans to land the rocket on a drone ship called “Of Course I Still Love You,” which will be stationed in the Atlantic Ocean off the coast of Florida. In order to stick the landing, the rocket must execute a flip maneuver before firing its engines for a boost-back burn and entry burn.
SpaceX’s Crew Dragon spacecraft separates from the Falcon 9 rocket’s second stage in the Demo-2 mission animation. (Image credit: SpaceX)
Just a few seconds after the first stage separation, the rocket’s second stage will fire its engines for about six minutes. Crew Dragon spacecraft will separate from the rocket’s second stage. At this point, Crew Dragon will be on its own in space for the first time.
For the cargo version of SpaceX’s Dragon spacecraft, this is when the solar arrays would deploy to begin powering the spacecraft. However, the Crew Dragon has its solar panels built into the body of the spacecraft, so no big, shiny solar panels will be unfolding.
Approaching the International Space Station
Crew Dragon cautiously approaches the ISS. (Image credit: SpaceX)
Once Crew Dragon has separated from the rocket’s upper stage, the spacecraft will perform a series of phasing maneuvers to gradually approach and autonomously dock with the International Space Station (ISS).
The phasing burns will raise Crew Dragon’s altitude to the altitude of the ISS, which orbits Earth at an average altitude of about 250 miles (400 km).
Docking with the International Space Station
Crew Dragon docks at the the International Space Station’s Harmony module. (Image credit: SpaceX)
When Crew Dragon gets close to the ISS, entering an imaginary 650-foot (200 meters) bubble around it known as the “keep-out sphere,” it will align with its docking port at the Pressurized Mating Adapter PMA-2 on the Harmony module of the ISS. The spacecraft will then inch very slowly toward the station and dock with a fully autonomous docking system. If needed, the astronauts on board can also take over manual control of the spacecraft.
Crew Dragon is expected to dock with the station on Thursday, May 28 at 11:29 a.m. EDT (1529 GMT), or about 19 hours after liftoff. The three-person crew of Expedition 63 — NASA’s Chris Cassidy and cosmonauts Anatoly Ivanishin and Ivan Vagner, who have been at the ISS since April — will help the Demo-2 astronauts open the hatch and enter the space station. The hatch is scheduled to open at 1:55 p.m. EDT (1755 GMT).
1-4 months in space
(Image credit: SpaceX)
The Demo-2 astronauts will spend anywhere from 30 to 119 days at the International Space Station — NASA and SpaceX have not yet decided exactly how long the mission will last. The duration of the Demo-2 mission will depend on the state of the Crew Dragon capsule in orbit as well as the progress on the next Crew Dragon vehicle, which is slated to launch the first operational mission, called Crew-1, later this year.
Although NASA is not yet sure if the Demo-2 astronauts will be at the ISS for the next spacewalks, the astronauts received some spacewalk training just in case, NASA officials said May 1 in a mission briefing. The crew is also trained to participate in many of the hundreds of scientific experiments going on at the ISS.
Demo-2 crew heads home
Crew Dragon departs the ISS. (Image credit: SpaceX)
Whenever the Demo-2 mission departs the ISS, the procedure for its departure will be much like the arrival, only backwards. The spacecraft must first slowly exit the “keep-out sphere” before conducting more phasing burns to lower its orbit. The entire descent will be about a two-day flight sequence.
Crew Dragon ditches its “trunk”
Crew Dragon jettisons its “trunk” before reentry. (Image credit: SpaceX)
As it gets closer to Earth, the Crew Dragon spacecraft will jettison its service module, known as its “trunk,” before conducting a deorbit burn that will send it plummeting into Earth’s atmosphere.
The trunk is a cylindrical, finned module that contains the spacecraft’s built-in solar arrays and other equipment required for its flights to and from the space station. Crew Dragon jettisons its trunk during reentry to clear the spacecraft’s heat shield and prepare the spacecraft for splashdown.
A still image from SpaceX’s Demo-2 animation video depicts Crew Dragon’s fiery reentry. (Image credit: SpaceX)
The Crew Dragon spacecraft will enter Earth’s atmosphere traveling at a speed of about 17,000 mph (27,000 km/h). The friction of particles in the atmosphere will create a drag force, slowing it down drastically while heating the outside of the capsule to temperatures nearly as hot as the sun.
A heat shield protects the astronauts from these extreme temperatures, but the spacecraft likely won’t look as pristine after its return as it will before the launch. When SpaceX’s Demo-1 Crew Dragon spacecraft returned from its uncrewed test flight in March 2019, it looked like a toasted marshmallow.
Crew Dragon’s four parachutes will deploy before the splashdown. (Image credit: SpaceX)
Once Crew Dragon has completed the fiery reentry phase of its return flight, the spacecraft will deploy its four Mark 3 parachutes, which will slow down the vehicle as it descends for a gentle splashdown in the Atlantic Ocean off the coast of Florida.
Crew Dragon will splash down in the Atlantic Ocean. (Image credit: SpaceX)
A search and recovery crew will be waiting nearby on SpaceX’s GO Navigator ship to help the Demo-2 crew out of the Crew Dragon and hoist the spacecraft out of the water so it can return to Cape Canaveral, where SpaceX and NASA crews will inspect it.
NASA and SpaceX have a list of criteria that will determine whether the Demo-2 mission is considered a success. The Crew Dragon must demonstrate that it can successfully separate and deploy into its target orbit after launch, rendezvous and dock/undock at the ISS, and safely bring the astronauts back to Earth. If everything goes according to plan, SpaceX will soon begin regularly ferrying astronauts to the ISS with its Crew Dragon capsule.
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