What is the best sequence in which to study undergraduate mathematics?
I am currently self-teaching mathematics at the moment, with my current focus being pre-calculus mathematics. At some point I will eventually reach undergraduate material and as I do not possess a great grasp of the subject I would like your thoughts on what would pedagogically speaking be the best sequence in which to study the numerous topics that compose mathematics.
It is very obvious to me that in order to study certain topics some pre-requisites are necessary. I am certain many of you have studied mathematics and with the power of hindsight may have wished you had studied a particular topic before/after another as it would have perhaps enhanced your understanding and/or made certain concepts easier to digest, I'd like to benefit from your experience.
Making my query more pointed: I would like to know the ideal sequence in which to self-study mathematics, along with canonical book recommendations for each topic.
I am someone who did just as you are hoping to do -- I don't enjoy studying material without a strong background in the assumed prerequisites, so some would feel that I'm suggesting too much.
My suggestion is to go through Stewart's calculus front-to-back, doing typical problem sets. Whenever you struggle with a pre-calculus or algebra fact, make sure you review that material. Once you've done this, I recommend deviating from the typical routine and picking up a copy of the book "How to Prove it." With the maturity you have after going through calculus, you will understand the essence of what a proof is, and the importance of working with and thinking in terms of definitions. After this, for fun you might enjoy going through "Geometry: Seeing, Doing, Understanding" by Jacobs. Then, quickly, go back through your Algebra/Pre-Calculus textbook examples and work through any of them that do not seem immediately obvious how to do. Then, quickly go back through Stewart, doing the same thing. You will be very prepared at this point to do very well in your future studies.
From here, you would want Linear Algebra, Complex Analysis, Abstract Algebra, and Real Analysis. For Linear Algebra, I recommend Gilbert Strang's MIT opencourseware videos, and for Real Analysis, I recommend Francis Su on YouTube (he goes through the textbook Principles of Real Analysis by Rudin).
These, I think are essential. you can't plan too much further in advance because your interests will change as time goes on. But some other areas you could look at are probability and statistics, number theory, numerical analysis, and differential equations, or more advanced topics in what I've already mentioned.
I would recommend these to be read at the same time:
- Euclid's ELEMENTS (translated by Heath), and
- Hartshorne's GEOMETRY: EUCLID AND BEYOND.
Proving theorems by construction is a wonderful way to do mathematics, and Hartshorne's book will point out and correct the logical mistakes Euclid made, extend his results, and provide a connection to contemporary mathematics by way of introductory modern algebra. Best of all, the prerequisites are zero, zilch, nada. By the time you have finished both of these books (which should take the better part of two semesters going it alone) you will know what you want to know more about.