Artemis: Everything you need to know about humanity’s return to the Moon


NASA is ready to kick-start an exciting new era of space exploration by launching the first mission in its Artemis programme. Artemis 1 aims to demonstrate new rocket technology that will be key in achieving the ultimate goal of the project: returning astronauts to the Moon for the first time since 1972.

“This is a mission that truly will do what hasn’t been done and learn what isn’t known,” says Mike Sarafin, Artemis 1 mission manager at NASA Headquarters in Washington.

“It will blaze a trail that people will follow on the next flight, pushing the edges of the envelope to prepare for that mission.”

On Artemis 1, an uncrewed capsule called Orion will journey around the Moon. Artemis 2 will see a crew orbit the Moon without landing, followed by Artemis 3 carrying the first female astronaut and astronaut of colour to the lunar surface later this decade.

This time, the space agency plans to maintain a permanent presence on the Moon. In the words of one of the project’s chief engineers, “to advance from a 20th-Century Moon shot, to a 21st-Century Moon stay.”

If all goes to plan then Artemis could eventually become as famous as Apollo in the annals of space history.

When is the Artemis 1 launch?

The first launch on 29 August 2022 was scrubbed after engineers found an ‘engine bleed‘. The team was unable to get one of the four RS-25 engines (on the bottom of the rocket’s core stage) to the proper temperature range for liftoff.

Meanwhile, the rocket and Orion spacecraft remain in a safe and stable configuration.

The next launch window will be on Friday 2 September 2022, at 12:48 p.m BST (just before 8am EST, local time in Florida). The launch window will be open for two hours, but as yet, is unconfirmed.

Engineers are continuing to gather additional data, but if bad weather or other delays prevent the launch attempt on 2 September, the next window after that will be on 5 September 2022.

How to watch the Artemis 1 launch

If you can’t make it to Florida to see it in person, NASA is launching The Artemis Real-time Orbit Website (AROW) which will allow you to track the mission’s every move.

“[It’s] a really powerful way to engage with the mission and understand the scope of what NASA is trying to accomplish with Artemis 1,” says Seth Lambert, the Orion programmer who created AROW.

Further details will be announced on the @NASA_Orion Twitter feed, once the date for the next launch attempt is confirmed.

When to tune in to the Artemis launch

Artemis 1 will launch from Launch Pad 39B at NASA’s Kennedy Space Center at Cape Canaveral, Florida – most of the Apollo missions launched from 39A, but that is currently being leased by Elon Musk’s SpaceX.

On Monday 22nd August, NASA officials conducted a flight-readiness review for the first launch attempt.

“We are go for launch, which is absolutely outstanding,” said NASA’s Robert Cabana at a press conference after the review. “This day has been a long time coming.”

It is likely that another flight-readiness review will be conducted for the next attempt.

The SLS rocket and Orion capsule on launchpad 39B © NASA

The SLS rocket and Orion capsule on launchpad 39B © NASA

The Artemis programme began in 2017 and the first launch window was on the morning of Monday 29th August between 08:33 and 10:33 local time (between 1:33 pm and 5:33 pm BST). The first launch was officially scrubbed at 8:34 local time (1:34 pm BST).

The next possible launch windows will be on the 2nd and 5th of September 2022. As of Tuesday 30 August 2022, the date of the next attempt is still to be confirmed.

What is the Space Launch System?

One of the most impressive parts of Artemis 1 is the brand new mega-rocket that will loft it into space: the Space Launch System – or SLS for short.

“SLS is the most powerful rocket NASA has ever built,” says former acting NASA Administrator Steve Jurczyk. “[It’s] an incredible feat of engineering and the only rocket capable of powering America’s next-generation missions.”

Here, the Orion spacecraft can be seen mounted atop the SLS rocket inside High Bay 3 of the Vehicle Assembly Building at the Kennedy Space Centre in Florida prior to launch. © NASA

Here, the Orion spacecraft can be seen mounted atop the SLS rocket inside High Bay 3 of the Vehicle Assembly Building at the Kennedy Space Centre in Florida prior to launch. © NASA

SLS will accelerate the Orion capsule to speeds of nearly 40,000 km/h and generate 15 per cent more thrust than the famous Saturn V rocket that sent the Apollo astronauts to the Moon. It’s powered by four RS-25 engines, with each one weighing as much as an elephant and standing as high as a double-decker bus.

When it launches with the Orion capsule on top, the whole structure will be almost 100 metres tall. That’s the equivalent of two Olympic size swimming pools or taller than the Statue of Liberty. It will weigh more than 2600 tonnes – about the same as 20 blue whales. It is capable of delivering 27 tonnes of payload to an orbit beyond the Moon. They’ll tweak the configuration when it comes to sending a human crew, ramping up the total payload to 38 tonnes.

Each launch costs over $2 billion and the whole project has cost $23 billion.

What is the Orion capsule?

The Orion capsule, named after the famous constellation in the night sky, is designed to be a home away from home for the next generation of astronauts. It comes in three key parts, the main one being the Crew Module. There’s space for four astronauts – one more than the crews of three who flew on the original Apollo moon landing missions.

It’ll definitely be cosy in there as the module has an overall habitable capacity of just nine cubic metres. That’s only about 60 per cent of the volume you’ll find in the back of a Transit van.

The Orion capsule being readied for launch © NASA

The Orion capsule being readied for launch © NASA

Yet it is the Service Module, designed and built by the European Space Agency, that does most of the work. It provides the propulsion to fling Orion out of Earth orbit and on a rendezvous path with the Moon. The Service Module will also supply water and air to the crew on later Artemis missions (Artemis 1 is uncrewed).

The final part of Orion is no less important. Space travel is dangerous, with a history of emergencies on launch. The Launch Abort System can react within milliseconds and quickly blast the Crew Module away from the rocket and launch pad for a safe splashdown in the ocean.

What’s on board the Orion capsule and why?

Without any astronauts on board Artemis 1, there is space to include other ‘passengers’ in the Crew Capsule.

Commander Moonikn Campos is a mannequin being used to measure the effects of accelerations and vibrations on future human astronauts. Named after Arturo Campos, an engineer who helped to save the Apollo 13 crew in 1970, he is pictured here in the commander’s seat of Orion wearing an Orion Crew Survival System flight suit – the same uniform that will be worn by the Artemis 2 and 3 crews.

Commander Moonikn Campos is a mannequin being used to measure the effects of accelerations and vibrations on future human astronauts. Named after Arturo Campos, an engineer who helped to save the Apollo 13 crew in 1970, he is pictured here in the commander’s seat of Orion wearing an Orion Crew Survival System flight suit - the same uniform that will be worn by the Artemis 2 and 3 crews. © NASA

Commander Moonikn Campos in position. © NASA

A pair of anatomically correct torso analogues named Helga and Zohar positioned onboard Orion will be used to study the effects of radiation on the human body during lunar flight. They are made of materials specifically designed to mimic bones, soft tissue and organs.

The torso analogues Helga and Zohar will help the scientists study the impact of radiation on the human body. © NASA

And here are just some of the quirky things that will fly around the Moon as part of the Artemis 1 Official Flight Kit:

  • A doll of the cartoon character Snoopy, decked out in the iconic NASA orange jumpsuit, will act as a zero gravity indicator.
  • The European Space Agency have chosen Shaun the Sheep, from Aardman’s Wallace and Gromit series, as their toy. “Although it might be a small step for a human, it’s a giant leap for lambkind,” says David Parker, ESA’s Director for Human and Robotic Exploration. Shaun travelled across Europe and the US to “train” for the mission and his journey was documented and presented in a series of ESA blog posts leading up to the launch as part of their media campaign.
  • Lego is getting in on the action, too. Four mini figures – Kate, Kyle, Julia and Sebastian – will fly on Artemis 1. “Our hope is that including Kate and Kyle in this space mission will excite students about the possibilities of STEAM careers and engage them in their own learning journey,” said Esben Stærk, president of LEGO Education.
  • A moon rock sample and an engine bolt from Apollo 11, tie Artemis to Apollo. This follows a long-standing tradition as Neil Armstrong took a piece of the Wright Brothers’ first successful aircraft to the Moon in 1969.

The Artemis 1 flight path

After hurtling towards the Moon for several days, Orion will travel within 100 kilometres of the lunar surface. This allows mission controllers to use the Moon’s gravity to fling Orion out to a distant orbit some 70,000km beyond the Moon. After six days of collecting valuable data from orbit, the return home begins.

Artemis 1 will loop around the Moon and return to Earth. © NASA

It will travel back towards the Moon’s surface to get another kick in the direction of the Earth. The plan is to splash down in the sea close to a recovery ship off the coast of Baja, California. A team of divers will inspect the spacecraft before it is hauled back to shore, completing a four-to-six-week, two-million-km round trip.

What’s next for the Artemis mission?

If everything goes smoothly with Artemis 1 then four astronauts will fly on the next mission, Artemis 2, currently scheduled for launch in May 2024. The plan is to fly around the back of the Moon and return to the Earth. The crew will set the record for the furthest humans have ever travelled into space.

Artemis 2 will take a crew of four astronauts on a flyby of the Moon © NASA

Next, Artemis 3 is the one for the history books. In 2026 astronauts will land on the Moon for the first time since Gene Cernan became the last person to leave the lunar surface back in 1972. Two astronauts will spend a week close to the Moon’s South Pole and conduct experiments including prospecting for lunar water. Another two will stay in lunar orbit.

In August 2022 NASA shortlisted thirteen potential landing sites, all within six degrees of the lunar South Pole.

“Several of the proposed sites within the regions are located among some of the oldest parts of the Moon, and together with the permanently shadowed regions, provide the opportunity to learn about the history of the Moon through previously unstudied lunar materials,” says Sarah Noble, Artemis lunar science lead for NASA’s Planetary Science Division.

The pinnacle of the mission, Artemis 3, will orbit a crew of four astronauts around the Moon and culminate with two of the crew walking on the Moon. © NASA

Then it will be time to build a permanent presence away from Low Earth Orbit. The key goal of this mission, Artemis 4, is to help build Gateway – a space station in orbit around the Moon. Currently slated for 2027, it would act as a staging post for future trips to the lunar surface.

Who are the Artemis astronauts?

We don’t know exactly who is flying yet, but we do have some limited information. The Artemis 2 crew will consist of three NASA astronauts and a colleague from the Canadian Space Agency. It will be the first time a non-NASA astronaut has left Low Earth Orbit.

The crew of Artemis 3 hasn’t been publicly revealed either, but NASA have promised to land the first female astronaut and first astronaut of colour on the Moon. They will come from the wider Artemis team, a collection of 18 astronauts – 9 women and 9 men – already revealed by NASA. Half of them have never flown into space before. Arguably none are household names yet, but that will surely change.

Artemis astronaut Kate Rubins, who became the first scientist to sequence DNA in space back in 2016, perhaps put it best when she said: “”When we’re having dark times, to think of the fact that we might have people on the planet able to look up and know that there are humans on the moon… I can’t even describe what kind of benefits that might [bring].”

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