> One person's mundane work is another person's magical wizardry.
Absolutely. Sometimes I get excited about a topic and try to learn as much as possible, but once you peek behind the curtain it's just as mundane as anything else.
Most of the time an abstract is hard to understand because the concepts have been abstracted. If you just break it down and pick it apart, it's not hard to understand, though it can be time consuming depending on what you already know.
once you peek behind the curtain it's just as mundane as anything else
So much of interesting computation is just matrix manipulation/linalg under the covers. Which is pretty cool actually: it means the skills are very transferrable, which it turns means it is worthwhile going deep.
This is a breath of fresh air compared to most sorts of computing, where the skill really is "memorize all the workarounds to the bugs", and all the time you know as soon as the next version comes out, all that is obsolete, so you try to avoid wasting too much time learning it.
Astrophysics and cosmology are both relatively straightforward. There is one set of partial differential equations that are relevant, a few more when you also want to understand things like the magneto-hydrodynamics of stars or charged gas clouds. In the end it is nothing you can't manage to understand with a bit of study. What is truly hard is to prove rigorous mathematical statements about any of those equations and the resulting geometry. But the number of people who attempt this are dwarfed by the total number of people working in this field 1:1000 maybe.
Absolutely. Sometimes I get excited about a topic and try to learn as much as possible, but once you peek behind the curtain it's just as mundane as anything else.
Most of the time an abstract is hard to understand because the concepts have been abstracted. If you just break it down and pick it apart, it's not hard to understand, though it can be time consuming depending on what you already know.