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this post was submitted on 23 Oct 2024
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Over the last few years, I have been thinking a ton about this style of article. They are riddled with phrases like "this shouldn't be possible", "breaks the laws of physics", "it's an impossible structure", or something along those lines.
While these phrases are partially click-bait and partially awe inspiring, I am starting to think that the approach we are taking for estimating the massive scale of things in the universe may be extremely flawed.
I don't claim to be a physicist or anything like that and am just your average internet idiot. However, it seems to me that working these problems in reverse might help. Our existing observations of the universe just seem to always put artificial caps on some problems, s'all.
So, let's take the most massive black hole we know of and then multiply it's mass by say, a few million times. Immediately, there will be a barrage of people who would post a million (probably legitimate) counter points as to why that wouldn't even be possible to begin with.
It seems that given enough time, we eventually find some "impossible" things.
While it's easy so get lost in constraints like the possible age of the universe, likely theories of early black hole formation, etc... It seems that Occam's Razor might be getting lost somewhere. I mean, even with all of our existing data that says otherwise, there is that thing that was impossible. It's right there! What would it take to form that thing even if the conditions seem absurd?
This has kind of been the expectation of JWST and why it was so anticipated and is so exciting. The whole point is to collect new data that challenges our understanding and learn new things.
These articles are usually written in a highly sensationalized way. Our understanding of what "should be possible" is based on computer models/simulations. These new, hard to explain observations have taught us that our models were not detailed or precise enough, or need to have parameters adjusted to accurately reproduce them, without needing to break our theories of the big bang and an expanding universe. We don't even need to throw out the old models, because they are still useful and great for modeling most of the universe, just understand that there are limitations for using them to model the very early universe
There are definitely big mysteries yet to be explained and a lot to learn and figure out. The Hubble Tension comes to mind, and that one does make me a bit suspicious that something isn't quite right.