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Have yet to see any of these ‘studies’ take into account and compare with natural meteorite effects, which are orders of magnitude larger than the satellites.
Are you just doing the thing where you cast doubt on journal articles because they feel wrong? You don’t think humans can affect the natural environment in such a way? This sounds oddly familiar and a bit ironic for this community…
Meteors aren’t made out of aluminum like satellites are btw. There will be more reasearch done and we will learn more. But for now, there’s a potential issue.
Meteors are leftovers of the same primordial stuff that made up earth, so a cross sample of them would largely share the same ratios as earth, minus the volatiles.
Though it looks like the community hive mind has made up its mind on this one
I did some very rough estimates and found that the amount of aluminum entering the Earth’s atmosphere each year is probably between 100 and 500 tons, which would be roughly comparable to the amount coming from these LEO comm sats like Starlink.
These are just super ballpark figures, but it’s in the same order of magnitude. More research is definitely necessary.
Meteors are leftovers of the same primordial stuff that made up earth, so a cross sample of them would largely share the same ratios as earth, minus the volatiles.
Logic would dictate that that is likely, though that statement itself isn’t scientific. Do you have any sources to back that up? I could see a possibility where, perhaps, certain elements are more likely to coalesce into planetary bodies, and others into meteoroids. It could also depend on the location in the solar system where the formation occurred — the primordial dust cloud that made up the infant solar system, I would wager, would be far from uniform.
That’s not the comparison at all, the comparison is what the sattelites are made of (mostly aluminum) and what the meteors are made of (mostly other stuff, like earth).
they are finding elements that don’t even occur in nature
Neither of your referenced quotes claimed that the elemental makeup of the measured particulate was synthetic. If you are referring to “Niobium and hafnium do not occur as free elements in nature”, what this means is that the elements are not ever found on their own — they have only ever been found bonded to something else. Niobium makes up 0.0017% of Earth’s crust and Hafnium makes up 0.00033% [source (archive)].
Hm, while the presence of the elements in question in the atmosphere could be naturally occurring, what’s important to consider for this discussion is the rate of their increase. If there’s an increase in the problematic particulate in the atmosphere that correlates with an increase in the atmospheric burn up of artificial satellites with no related increase in the rate of meteors, then its likely that the artificial satellites were indeed the culprit.
They won’t, it’s just musk hate. I can’t stand the idiot either, but starlink has done more for rural and underserved homes than all the telcoms have in the last 30 years.
It may be true that Starlink is a great service, but that’s entirely irrelevant to the point of the article and any ozone destruction that the satellites cause.
The issue is that meteorites don’t have hardly any aluminum, which is the metal of concern here. We’re already seeing significant increases in the upper atmospheric concentration, and it’s projected to get a lot worse.
Meteorites do contain aluminum. The issue is with the concentration of aluminum in the atmosphere, as well as its rate of increase. If there’s an increase in the atmospheric burn up of artificial satellites accompanied by an increase in the problematic particulate in the atmosphere, then it’s certainly fair to consider that the two are correlated. This is especially so if there is no increase in the burn up of objects from any natural source — eg meteors.
Have yet to see any of these ‘studies’ take into account and compare with natural meteorite effects, which are orders of magnitude larger than the satellites.
Are you just doing the thing where you cast doubt on journal articles because they feel wrong? You don’t think humans can affect the natural environment in such a way? This sounds oddly familiar and a bit ironic for this community…
Meteors aren’t made out of aluminum like satellites are btw. There will be more reasearch done and we will learn more. But for now, there’s a potential issue.
https://phys.org/news/2024-06-satellite-megaconstellations-jeopardize-recovery-ozone.amp
Aluminium is an element, it’s going to be present in meteors to the same extent it is on earth
Is that a thing? Meteors content matching Earths?
Meteors are leftovers of the same primordial stuff that made up earth, so a cross sample of them would largely share the same ratios as earth, minus the volatiles.
Though it looks like the community hive mind has made up its mind on this one
I did some very rough estimates and found that the amount of aluminum entering the Earth’s atmosphere each year is probably between 100 and 500 tons, which would be roughly comparable to the amount coming from these LEO comm sats like Starlink.
These are just super ballpark figures, but it’s in the same order of magnitude. More research is definitely necessary.
Logic would dictate that that is likely, though that statement itself isn’t scientific. Do you have any sources to back that up? I could see a possibility where, perhaps, certain elements are more likely to coalesce into planetary bodies, and others into meteoroids. It could also depend on the location in the solar system where the formation occurred — the primordial dust cloud that made up the infant solar system, I would wager, would be far from uniform.
That’s not the comparison at all, the comparison is what the sattelites are made of (mostly aluminum) and what the meteors are made of (mostly other stuff, like earth).
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Neither of your referenced quotes claimed that the elemental makeup of the measured particulate was synthetic. If you are referring to “Niobium and hafnium do not occur as free elements in nature”, what this means is that the elements are not ever found on their own — they have only ever been found bonded to something else. Niobium makes up 0.0017% of Earth’s crust and Hafnium makes up 0.00033% [source (archive)].
Hm, while the presence of the elements in question in the atmosphere could be naturally occurring, what’s important to consider for this discussion is the rate of their increase. If there’s an increase in the problematic particulate in the atmosphere that correlates with an increase in the atmospheric burn up of artificial satellites with no related increase in the rate of meteors, then its likely that the artificial satellites were indeed the culprit.
They won’t, it’s just musk hate. I can’t stand the idiot either, but starlink has done more for rural and underserved homes than all the telcoms have in the last 30 years.
It may be true that Starlink is a great service, but that’s entirely irrelevant to the point of the article and any ozone destruction that the satellites cause.
Way more tons of meteorites burn up entering the atmosphere than the amount of shit starlink will even remotely produce.
https://phys.org/news/2024-06-satellite-megaconstellations-jeopardize-recovery-ozone.amp
The issue is that meteorites don’t have hardly any aluminum, which is the metal of concern here. We’re already seeing significant increases in the upper atmospheric concentration, and it’s projected to get a lot worse.
Meteorites do contain aluminum. The issue is with the concentration of aluminum in the atmosphere, as well as its rate of increase. If there’s an increase in the atmospheric burn up of artificial satellites accompanied by an increase in the problematic particulate in the atmosphere, then it’s certainly fair to consider that the two are correlated. This is especially so if there is no increase in the burn up of objects from any natural source — eg meteors.