Between 1968 and 1972, America launched 9
human missions to the Moon, 6 of which successfully
touched down, allowing 12 men to walk on the
lunar surface.
NASA's next chapter of lunar exploration,
called Artemis, has the task of not just going
to the Moon, to create a long-term human presence
on and around it, but also to prepare for
ever-more-complex human missions to Mars.
In short, everything we must be able to do
here, we must first do here.
So, what will an Artemis mission look like?
Everything is designed and tested with our
most important element in mind: the astronauts.
This is their deep space, human-rated spacecraft
called Orion, built in 3 parts: the crew module,
where up to 4 astronauts will live and work
throughout the flight; the service module,
with life support systems for the crew and
its own engine and fuel reserves; and a launch
abort system, with engines capable of pulling
the crew module to safety during launch, should
anything go wrong.
To accomplish the task of launching our crew
and heavy payloads, NASA is building the Space
Launch System, comprising of a cargo hold,
an Exploration Upper Stage, a massive core
stage and 2 extended solid rocket boosters.
All together, this is the world's most powerful
rocket.
And it exceeds the legendary Saturn V of the
Apollo era in numerous ways.
Sitting on the launch pad, the entire rocket,
fully fueled, weighs just over 6 million pounds,
5.2 million of which is just the fuel.
Once ignited, there is no stopping what comes
next.
All 4 RS-25 engines and the 2 solid rocket
boosters come to life, thundering our crew
upwards.
Two minutes after ignition, the solid rocket
boosters are spent and released.
Eight minutes after launch, the core stage
is depleted and separated.
The upper stage fires briefly, placing Orion
into a parking orbit around the Earth.
Here, the crew reconfigure the spacecraft
and check systems to confirm everything is
ready for deep space travel.
With a "go" from Mission Control, the crew
reignite the Exploration Upper Stage engines
to leave Earth entirely.The exact timing of
this maneuever is critical to reach a speed
that can escape Earth's gravitational pull,
but also put Orion on a course that will intersect
the Moon days later.
Once this burn is complete, the upper stage
of the SLS is jettisoned and the crew on board
Orion coast for several days toward all that
awaits them at the Moon.
Approaching the Moon, we see the fundamental
differences between Artemis and Apollo.
Instead of requiring Orion to serve as an
expendable lunar command module or carry a
constrained lunar lander, the Artemis missions
will take advantage of a different approach:
pre-staging.
Everything needed for lunar missions will
be positioned in advance by commercial and
international partners.
This includes rovers, science experiments
and human-rated systems on the surface.
But it also includes a dedicated lunar station
in orbit around the Moon, called Gateway.
Here at the station, we can pre-stage a robust
lunar lander and establish a strong communications
relay.
Designed with open standards, the Gateway
can be expanded as new missions and partnerships
develop, allowing multiple human missions
on the Moon at the same time, and enabling
ongoing science to be conducted even between
human missions.
The Gateway is also capable of adjusting its
orbit to allow access to every part of the
Moon, something the Apollo missions could
not do.
But the real key in this approach is placing
Gateway in a unique halo orbit to perfect
the maneuvers needed for Mars missions.
And, with a growing list of commercial and
international opportunities, Gateway is the
ideal hub between Earth and all that lies
beyond.
Returning to our crew as they approach Gateway,
the Orion must match the elliptical orbit
of the station in order to successfully dock.
Once on board, preselected crew members transfer
to the lunar lander while those assigned to
Gateway remain on station.
The lunar lander system itself is built for
3 unique steps: descending from the halo orbit
of Gateway down to a low lunar orbit; descending
from low lunar orbit to the surface; and once
the lunar mission is complete, launching from
the surface of the Moon and ascending all
the way back to the orbiting Gateway.
Once back aboard the Orion spacecraft and
undocked from Gateway, the crew fire their
engines to break out of the halo orbit and
once again to sling the spacecraft around
the Moon, placing it on a multi-day trajectory
back towards Earth.
As they near the end of this journey, the
service module is released and the crew module
is oriented heat shield-first.
Entering Earth's atmosphere at 25,000 miles
per hour, the friction of air slows Orion
considerably, while also subjecting it to
temperatures of 5,000 degrees.
With the Orion now at just 300 miles per hour,
a series of parachutes uniquely tested and
produced for this moment deploy, decelerating
the craft to just 20 miles per hour for splashdown.
With each successful mission, Artemis ushers
in the next wave of men and women to explore
our Moon.
And proves that together, we're ready to go
beyond.
