Seven years ago, SpaceX launched its first mission out of Earth orbit for NOAA, and since then, its upper stage has stuck around. But, according to a community of observers, it will meet an end crashing into the Moon soon.
What SpaceX launch was this?
For SpaceX, 2015 was a breakout year. It began with the company’s first droneship landing, which failed, and ended with the first-ever successful landing of a Falcon 9 booster back at LZ-1. 2015 was also the last time the company lagged behind ULA’s Atlas V as the most launched US rocket for the year.
Finally, SpaceX was tasked to launch NOAA’s Deep Space Climatary Observatory (DSCOVR) out to the Earth-Sun L1 Lagrange Point, opposite the L2 point NASA’s James Webb Space Telescope is arriving at today. DSCOVR was the first mission for SpaceX to leave Earth’s orbit and was the first time the rocket’s second stage couldn’t use the Earth’s atmosphere to deorbit itself, a tactic regularly used to reduce space debris.
This meant DSCOVR’s spent stage was stuck orbiting around the Earth and Moon for the past seven years. Unfortunately, there are not many stable orbits around the Earth and the Moon. The Moon does a pretty good job slinging unwanted debris out around the Sun or crashing into itself. This final option will be the fate of the spent SpaceX stage.
When will SpaceX’s second stage crash into the Moon?
According to Bill Gray and a team of observers collecting extra data, SpaceX’s second stage is expected to crash into the Moon on March 4, as first reported by Ars Technica.
This isn’t a perfect prediction – the object is tumbling, and while it’s well understood how the Earth, Moon, and Sun’s gravity will affect it, the projections of the light hitting it (which can affect orbits in space) are less understood. Gray writes, “these unpredictable effects are very small. But they will accumulate between now and 2022 March 4.”
What does this mean for orbiting Moon missions
Luckily, only a handful of missions orbit the Moon, so a collision is improbable. However, this will be a rare occurrence for missions like NASA’s Lunar Reconnaissance Orbiter to study the effects of a lunar impact.
Many mission’s spent stages have been used to impact the Moon in the past. Most notably during Apollo, NASA would impact both the S-IVB (Saturn V third stage) and Lunar Module’s ascent stage into the surface. Then seismometers would record the “moonquakes” that would occur.
More observations will be needed to fine-tune the exact time of impact before lunar assets can be appropriately readied to observe it, however.
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