Artemis I

When NASA’s Orion capsule splashed down in the Pacific Ocean yesterday afternoon, it marked the end of a journey that started decades ago. The origins of the Orion capsule can be tracked back to a Lockheed Martin proposal from the early 2000s, and development of the towering Space Launch System rocket that sent it on its historic trip around the Moon started back in 2011 — although few at the time could have imagined that’s what it would end up being used for. The intended mission for the incredibly powerful Shuttle-derived rocket changed so many times over the years that for a time it was referred to as the “Rocket to Nowhere”, as it appeared the agency couldn’t decide just where they wanted to send their flagship exploration vehicle.

But today, for perhaps the first time, the future of the SLS and Orion seem bright. The Artemis I mission wasn’t just a technical success by about pretty much every metric you’d care to use, it was also a public relations boon the likes of which NASA has rarely seen outside the dramatic landings of their Mars rovers. Tens of millions of people watched the unmanned mission blast off towards the Moon, a prelude to the global excitement that will surround the crewed follow-up flight currently scheduled for 2024.

As NASA’s commentators reminded viewers during the live streamed segments of the nearly 26-day long mission around the Moon, the test flight officially ushered in what the space agency is calling the Artemis Generation, a new era of lunar exploration that picks up where the Apollo left off. Rather than occasional hasty visits to its beautiful desolation, Artemis aims to lay the groundwork for a permanent human presence on our natural satellite.

With the successful conclusion of the Artemis I, NASA has now demonstrated effectively two-thirds of the hardware and techniques required to return humans to the surface of the Moon: SLS proved it has the power to send heavy payloads beyond low Earth orbit, and the long-duration flight Orion took around our nearest celestial neighbor ensured it’s more than up to the task of ferrying human explorers on a shorter and more direct route.

But of course, it would be unreasonable to expect the first flight of such a complex vehicle to go off without a hitch. While the primary mission goals were all accomplished, and the architecture generally met or exceeded pre-launch expectations, there’s still plenty of work to be done before NASA is ready for Artemis II.

Continue reading “NASA Aces Artemis I, But The Journey Has Just Begun” →

NASA’s upcoming Artemis I mission represents a critical milestone on the space agency’s path towards establishing a sustainable human presence on the Moon. It will mark not only the first flight of the massive Space Launch System (SLS) and its Interim Cryogenic Propulsion Stage (ICPS), but will also test the ability of the 25 ton Orion Multi-Purpose Crew Vehicle (MPCV) to operate in lunar orbit. While there won’t be any crew aboard this flight, it will serve as a dress rehearsal for the Artemis II mission — which will see humans travel beyond low Earth orbit for the first time since the Apollo program ended in 1972.

As the SLS was designed to lift a fully loaded and crewed Orion capsule, the towering rocket and the ISPS are being considerably underutilized for this test flight. With so much excess payload capacity available, Artemis I is in the unique position of being able to carry a number of secondary payloads into cislunar space without making any changes to the overall mission or flight trajectory.

NASA has selected ten CubeSats to hitch a ride into space aboard Artemis I, which will test out new technologies and conduct deep space research. These secondary payloads are officially deemed “High Risk, High Reward”, with their success far from guaranteed. But should they complete their individual missions, they may well help shape the future of lunar exploration.

With Artemis I potentially just days away from liftoff, let’s take a look at a few of these secondary payloads and how they’ll be deployed without endangering the primary mission of getting Orion to the Moon.

Continue reading “Unpacking The Stowaway Science Aboard Artemis I” →