Venusian meteorites? |
Venusian meteorites? |
Jan 28 2019, 02:54 AM
Post
#1
|
|
Senior Member Group: Members Posts: 2530 Joined: 20-April 05 Member No.: 321 |
Today, reading of the discovery of an apparent Earth meteorite fragment contained within a sample from Apollo 14, a curious possibility crossed my mind, and it seems like someone else may have thought of this, but I haven't found any sign of it: Could we find Venusian meteorites on the Moon? Better yet, could we find samples that offer a snapshot of Venus' past conditions from previous eons as preserved on the Moon?
It seems like in principle the answer is yes, and the question is how much lunar regolith would be required. Additionally, would the process have destroyed information that we might hope to get from the sample? That seems like a more complex question. There's a good bit of speculation that Venus may have had a radically different and more earth like climate in the past. It is noncontroversial that Venus has lost a lot of H2O over time, and if there was ever a large reservoir of H2O in the past, that seemingly would have meant an atmosphere with less CO2 partial pressure, which in turn would have made it easier for spallation of fragments from the surface to escape velocity. The fact that terrestrial material has made it to the Moon indicates that material can reach high orbit from Earth through spallation and that is quite close to the same velocity needed to go from the surface of Venus to escape. Now, making the interplanetary journey is a somewhat bigger leap, but not much more so. A fraction of Venusian materials making it to solar orbit would accidentally get gravity assists from Venus to Earth/Moon. Needless to say, a program of sampling lunar regolith for Venusian material would find a lot of other materials of interest in the process, including those sampling Mercury and the past environments of Earth. Substantive appeal here would seem to include the following: There is no technical challenge beyond current technology, though the strategies needed to deal with the needed scale might not be straightforward. (A long-life rover could choose, via terrestrial control and/or onboard AI, which out of many potential samples to return.) There are some particularly high-interest questions here, and to put a rather dramatic point on this, with the Sun's output in the past being 70% of what it is now, the past of Venus is an outstanding candidate for an Earthlike planet, and it is unthinkable that we would ever get a sample return from any of the others in the next few centuries, while we could potentially have an Ancient-Venus sample before 2025. (It's possible that we already have some in the Apollo samples!) And the potential discoveries are… no need to get speculative here, but extremely striking, when we consider the idea of an earth-sized planet with earth like levels of heating and a known history of high water content. I don't know if this idea has been mulled over before, but it seems like for the potential outcome, it should be of extremely high interest. |
|
|
Lo-Fi Version | Time is now: 10th November 2024 - 05:58 PM |
RULES AND GUIDELINES Please read the Forum Rules and Guidelines before posting. IMAGE COPYRIGHT |
OPINIONS AND MODERATION Opinions expressed on UnmannedSpaceflight.com are those of the individual posters and do not necessarily reflect the opinions of UnmannedSpaceflight.com or The Planetary Society. The all-volunteer UnmannedSpaceflight.com moderation team is wholly independent of The Planetary Society. The Planetary Society has no influence over decisions made by the UnmannedSpaceflight.com moderators. |
SUPPORT THE FORUM Unmannedspaceflight.com is funded by the Planetary Society. Please consider supporting our work and many other projects by donating to the Society or becoming a member. |