This is a pretty good list. I used it is a starting point for my own studies. I just have two comments to make:
1. It's very likely you do not have good enough math skills to start learning physics. I have a math minor and CS major, but after being out of school for a few years I had forgotten a lot of stuff. I needed to spend a week reviewing algebra and trigonometry and then longer reviewing calculus. This is humbling but will make your progress a lot easier. If you don't do this there will be examples you can't follow because you don't know what trick the author is using to go from one step to another in a solution.
2. If your mathematical preparation is good you can skip a lot of the introductory stuff. I.e. just go straight to Taylor's Classical Mechanics, and Griffith's Introduction to Electrodynamics. You can also learn QM from the graduate texts. No need to read Griffith's QM book first. I'm working through Shankar's Principles of Quantum Mechanics and it is definitely doable. He introduces all the math you need for the rest of the book in the first chapter, so if you can make it through that (it is mostly linear algebra) you will be ready for the rest of the book.
Regarding math, one topic that is often neglected: Asymptotic approximations. I would often read a grad level textbook, and the author would whip up some fancy approximation, and it always seemed like brilliant magic. It was demoralizing: I could never come up with that. Do I not have what it takes to be a physicist?
Then my math department offered a (rigorous) course on doing asymptotic approximations. I took it, and it all made sense. There are well known techniques, and the physics authors were merely using them. Yet it's rarely taught formally in physics programs. I've occasionally seen it covered as part of a "Mathematics for physicists" course, but they can cover only so much.
when I was having trouble understanding a particular technique (method of steepest descents), and it definitely had clearer explanations than other texts.
1. It's very likely you do not have good enough math skills to start learning physics. I have a math minor and CS major, but after being out of school for a few years I had forgotten a lot of stuff. I needed to spend a week reviewing algebra and trigonometry and then longer reviewing calculus. This is humbling but will make your progress a lot easier. If you don't do this there will be examples you can't follow because you don't know what trick the author is using to go from one step to another in a solution.
2. If your mathematical preparation is good you can skip a lot of the introductory stuff. I.e. just go straight to Taylor's Classical Mechanics, and Griffith's Introduction to Electrodynamics. You can also learn QM from the graduate texts. No need to read Griffith's QM book first. I'm working through Shankar's Principles of Quantum Mechanics and it is definitely doable. He introduces all the math you need for the rest of the book in the first chapter, so if you can make it through that (it is mostly linear algebra) you will be ready for the rest of the book.