this post was submitted on 17 Sep 2024
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Thanks for answering my frustrated questions, was a long day yesterday. I'll try to understand the deeper truths later, but I can already tell the matrix stuff goes over my head.
anytime. i’ve also had my fair share of long days studying analysis. and i feel like most of my time spent trying to learn analysis was spent fighting with the textbooks. i think the (ε,δ) stuff is to blame for that, but that’s a whole other topic.
anyways, i was thinking a bit more about the matrix stuff and i think i have a better explanation if you’re interested, since my previous one was probably a bit too abstract. i think it should honestly be criminal to teach multivariate analysis before linear algebra, since a lot of the purpose of multivariate analysis is to turn complicated problems into linear problems. but anyways, here’s the big picture:
you don’t really need to understand the ins and outs of matrices and be super familiar with them to get a sense of what the total derivative is, and how it should behave. for that purpose, here are some of the highlights of matrices and the total derivative:
Let A be an m x n matrix. Then:
So those are two ways to look at the total derivative: you can try to get a geometric understanding of what it does (approximate the function with the best fitting plane), or try to look at why it’s useful (turning harder problems into easier problems). But just to be clear, dealing with matrices is still hard, it’s just comparably a lot easier than dealing with random functions.