Third time became the charm for NASA’s attempt to launch the Artemis I mission – the rocket was successfully launched just before 2.00am EST (7:00am GMT) Wednesday morning on a 25-day mission around the moon.
The world’s most powerful rocket took off from the Kennedy Space Center in Florida after NASA engineers quashed two earlier attempts at lift off.
Artemis sees an uncrewed Orion spacecraft circle the Earth’s natural satellite and return to our planet after a 1.3 miIlion-mile voyage.
It is a historic launch that signals the first stage of the US space agency’s goal to return people to the lunar surface for the first time in half a century.
If successful, the mission will be followed by a human trip around the moon in 2024 and could lead to the first woman and first person of colour following in Neil Armstrong’s footsteps the year after.
The stumbling block to this has been the numerous delays NASA’s new mega moon rocket has faced, with its maiden launch date repeatedly pushed back since August.
However, after enduring fuel leak concerns, engine issues and escaping the clutches of not one but two hurricanes, the $4 billion (£3.5 billion) Space Launch System (SLS) has finally blasted into orbit.
The plan is to return human boots to the moon on Artemis III by 2025 and ultimately to build a permanent lunar outpost with a view to exploring deeper into the cosmos.
It would be the first time people have walked on the moon since 1972.
Artemis sees an Orion spacecraft circle the Earth’s natural satellite and return to our planet after a 1.3 miIlion-mile voyage
There had been concerns that this date could slip again pending post-storm inspections, after the SLS was battered by gusts of up to 100mph while exposed to the might of Hurricane Nicole last week.
Several issues were later found but none that delayed the launch of the mission.
NASA said the storm caused a tear in the engine rain covers and water to enter the crew access arm, but that these were ‘minor’ problems.
The 322ft (98m) rocket suffered the damage after officials chose to leave it on the launch pad rather than wheel it back to the Vehicle Assembly Building.
There had been concerns that this date could slip again pending post-storm inspections, after the SLS was battered by gusts of up to 100mph while exposed to the might of Hurricane Nicole (pictured) last week. Several issues were later found but none that delayed the launch of the mission
It had been thought that the storm would bring sustained winds of around 29 miles per hour (25 knots) and gusts of up to 46 miles per hour (40 knots).
However, it actually delivered wind speeds at 82 miles per hour (71 knots) and gusts of up to 100 miles per hour (87 knots).
Previous launch attempts were hindered by Storm Ian, a fuel leak issue and engine temperature concerns.
Providing it is all successful, another flight is due to follow in 2024 – this time with astronauts on board – before human boots once again grace the lunar surface a year later as part of NASA’s ambitious $93 billion (£63 billion) Artemis programme.
Here MailOnline answers everything you need to know about the forthcoming Artemis I mission, including how you can track the flight live.
How can I follow Artemis?
An online tool is allowing people to monitor the Orion spacecraft as it travels to the moon and back again during the 25-day voyage.
The Artemis Real-time Orbit Website (AROW) provides imagery, data and all the latest news about the launch, and lets space fans track it in real-time.
Data collected by sensors on Orion and sent to the Mission Control Center at NASA’s Johnson Space Center in Houston is used to provide real-time information – like distance from Earth and the moon – about the mission.
NASA also revealed that it will make Orion’s location data freely available for ‘data lovers, artists, and creatives to make their own tracking app, data visualisation, or anything else they envision’
NASA also revealed that it will make Orion’s location data freely available for ‘data lovers, artists, and creatives to make their own tracking app, data visualisation, or anything else they envision.’
It added that while AROW was developed for the upcoming Artemis missions, it may use the same technology to offer visualisations of other space missions in the future.
Britain also has an involvement in tracking Artemis I.
The Goonhilly Earth Station in Cornwall will track the uncrewed Orion capsule and provide communications support for the mission.
Goonhilly is the world’s only commercial deep space ground station. In 1969 the site was responsible for distributing live satellite feeds of the Apollo moon landing to people around the world.
Its GHY-6 deep space antenna will receive radio signals from the spacecraft over the six-week duration of its mission.
What does the mission involve?
Named after the twin sister of Apollo in Greek mythology, Artemis signifies the modern incarnation of the US space agency’s Apollo programme, which sent astronauts to the moon for the first time.
At 322ft (98m) — rising 23 storeys above the launch-pad at Cape Canaveral — the rocket is slightly shorter than the Apollo Saturn V that took astronauts to the moon in the 1960s and 1970s.
However, its four RS-25 engines (the same as those used on the Space Shuttle), powered by both solid and liquid fuel, provide greater thrust and a far higher top speed of up to 24,500 mph. (The Saturn V rockets used only liquid fuel because the technology had not yet advanced sufficiently for anything else).
It will see an uncrewed Orion spacecraft circle the moon and return to Earth after a 25-day, 1.3 miIlion-mile voyage
It needs that power to push a large spacecraft out of low-Earth orbit to the moon some 240,000 miles away.
The journey takes a few days and Orion will get as close as 60 miles (100km) from the lunar surface before firing its thrusters to move into orbit up to 40,000 miles (64,000km) away.
Ten shoebox-size secondary payloads, called CubeSats, are hitching a ride to space on Artemis I, while several other investigations are flying inside the Orion spacecraft during the flight test.
Each of the payloads will perform science and technology experiments in deep space, expanding our understanding of lunar science, technology developments, and deep space radiation.
During re-entry, Orion will emerge into the Earth’s atmosphere at 25,000mph before splashing down off the California coast.
Artemis I is designed to show that the SLS rocket and Orion capsule are ready to carry astronauts for Artemis II, and ultimately the Artemis III mission to return humans to the moon.
It would mark the first time people have set foot on the lunar surface since December 1972, when the American astronaut Gene Cernan scratched his young daughter’s initials in the dust next to his footprints before heading home.
ARTEMIS I MISSION: SOME OF THE ITEMS ON THE PACKING LIST
245 x Silver Snoopy pins
1 x Snoopy Zero G Indicator
500 x Artemis ‘Medallion’ gold seal stickers for certificates
2,775 x Artemis I mission patches
1 x Lunar sample button (Apollo 11)
567 x American flags
1 x Artemis program rubber stamp
90 x Girl Scouts Space Science badges
1 x Written quote by Dr. Maria Zuber
1 x World Space Week lapel pin
1 x Sycamore Tree seeds
1 x USB drive (images, drawings, poems of space by citizens and students)
1 x Dead Sea pebble
1 x Wrapped pen nib & Peanuts comic strip
1x National Air and Space Museum – Apollo 8 Commemorative Medallion
Are there astronauts on board?
No — unless you count Shaun the Sheep, Snoopy or the dummy Commander Moonikin as crew.
This mission has no humans on board, but as long as everything goes smoothly and the Orion capsule splashes down to Earth as planned, then the hope is that a four-person crew can make a trip around the moon in 2024.
Instead of humans, a trio of human-sized test dummies stand in for the crew in the Orion capsule, their bodies swarming with sensors to measure radiation and vibration.
In the commander’s seat is Commander Moonikin Campos — a tribute to electrical engineer Arturo Campos, who played a key role in getting the troubled Apollo 13 mission safely back to Earth in 1970.
Clad in a new Orion Crew Survival System spacesuit, the mannequin is providing NASA scientists with important data on what humans experience during a trip to the moon.
Two other mannequins named Helga and Zohar sit in the Orion’s passenger seats, and they reflect the US space agency’s determination that a manned flight to the moon will soon include a woman.
The dummies have torsos made of materials that mimic a woman’s softer tissue, organs and bones.
They are fitted with some 5,600 sensors and 34 radiation detectors to measure the amount of radiation exposure they encounter during the mission.
One is wearing a radiation protection vest and the other isn’t.
Scientists say that different organs have different susceptibility to space radiation, and understanding that will be essential to long-term space exploration.
Women generally have a higher risk of developing cancer, since they have more radiation-sensitive organs such as ovaries and breast tissue.
NASA has also revealed an Official Flight Kit list of items it sent on Artemis I, including 245 silver Snoopy pins, a Shaun the Sheep mascot, a Dead Sea pebble and 567 American flags.
The Apollo 10 lunar module used in 1969 was nicknamed Snoopy after the cartoon dog and a cuddly version of him will also go up in Artemis 1. Soft toys actually serve a useful function on space missions, floating around as a ‘zero gravity indicator’ to show when the spacecraft interior has reached the weightlessness of microgravity
The Apollo 10 lunar module used in 1969 was nicknamed Snoopy after the cartoon dog, and a cuddly version of him will also go up in Artemis I. Soft toys actually serve a useful function on space missions, floating around as a ‘zero-gravity indicator’ to show when the spacecraft interior has reached the weightlessness of microgravity.
A small piece of moon rock from the Apollo 11 mission also joined the ride, along with a patch and a bolt from Neil Armstrong’s iconic mission, to help connect the Apollo legacy to the Artemis program.
Artemis I even carries a variety of tree and plant seeds, too, as part of tests to study how they are affected by space radiation. Cultivating plants in space is regarded as a critical factor in allowing humans to thrive during longer space missions, providing not only food but oxygen.
What setbacks has the rocket faced?
Artemis I was first due to lift-off back in August. However, this attempt was scrubbed after controllers struggled to get an engine cooled down to its correct operating temperature.
A second attempt at the start of September was then hampered by a fuel leak, before Storm Ian pushed it back at the end of that month.
It had been hoped the rocket could launch in October, but NASA initially set a new blast-off date of November 14. This was then pushed to November 16.
Artemis I was first due to lift-off back in August. However, this attempt was scrubbed after controllers struggled to get an engine cooled down to its correct operating temperature
How much has it cost?
The Artemis programme as a whole has cost in the region of $93 billion (£63 billion). The costs have ballooned past initial estimates, to the point that NASA Inspector General Paul Martin called them ‘unsustainable’ earlier this year.
However, so far Congress has remained committed to funding Artemis.
When it comes to the launches, each one of the first few Artemis missions is estimated to cost $4.1 billion (£3.4 billion), according to NASA’s Office of the Inspector General.
What happens if it is a success?
If the mission goes to plan, NASA will then send Artemis II on a trip around the moon as early as 2024, this time with a human crew on board.
Four astronauts will enter into a lunar flyby for a maximum of 21 days.
Both Artemis I and II are test flights to demonstrate the technology and abilities of Orion, SLS and the Artemis mission before NASA puts human boots back on the moon in around three years’ time.
This could include the first woman and first person of colour to walk on the lunar surface as part of Artemis III.
What does it mean for the future of space travel and lunar exploration?
Beyond landing the first woman and first person of colour on the moon, NASA hopes to build a base camp and carry out annual missions to the lunar surface. Ultimately the US space agency hopes it can be used as a stepping stone for long-duration voyages, including human missions to Mars.
Additional pieces of Artemis infrastructure are also well under way.
In a partnership with the Canadian and Japanese space agencies, NASA is building the Gateway space station to orbit the moon.
This craft is meant to provide a staging ground for future sorties to the lunar surface.
Parts of the Gateway are already being built, and its first two modules could be launched as early as 2024.
The Artemis IV mission — which will launch no sooner than 2026 — is slated to finish the Gateway’s assembly in lunar orbit.
NASA will land the first woman and first person of color on the moon in 2025 as part of the Artemis mission
Artemis was the twin sister of Apollo and goddess of the moon in Greek mythology.
NASA has chosen her to personify its path back to the moon, which will see astronauts return to the lunar surface by 2025 – including the first woman and the next man.
Artemis 1, formerly Exploration Mission-1, is the first in a series of increasingly complex missions that will enable human exploration to the moon and Mars.
Artemis 1 will be the first integrated flight test of NASA’s deep space exploration system: the Orion spacecraft, Space Launch System (SLS) rocket and the ground systems at Kennedy Space Center in Cape Canaveral, Florida.
Artemis 1 will be an uncrewed flight that will provide a foundation for human deep space exploration, and demonstrate our commitment and capability to extend human existence to the moon and beyond.
During this flight, the spacecraft will launch on the most powerful rocket in the world and fly farther than any spacecraft built for humans has ever flown.
It will travel 280,000 miles (450,600 km) from Earth, thousands of miles beyond the moon over the course of about a three-week mission.