What Are the Best Resources for Learning Quantum Theory from Scratch?

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Discussion Overview

The discussion focuses on resources for learning quantum theory from scratch, particularly for individuals with limited physics backgrounds. Participants explore various texts and mathematical prerequisites necessary for understanding quantum mechanics and advanced physics concepts.

Discussion Character

  • Exploratory, Technical explanation, Conceptual clarification

Main Points Raised

  • One participant expresses a desire to learn quantum theory, seeking recommendations for quality texts suitable for beginners.
  • Another participant suggests Ballentine's "QM -- A Modern Development" as a potential resource, encouraging the original poster to assess their comfort with the mathematical level presented in the book.
  • A participant emphasizes the importance of linear algebra and mentions Shilov's "Elementary Functional Analysis" as a useful resource for that area of mathematics.
  • There is a discussion about the necessary mathematical background, with mentions of multivariate calculus and differential equations as important for studying advanced physics.
  • One participant questions how much of the mathematics in Ballentine's book the original poster can understand, suggesting that starting with the first chapter may reveal gaps in their knowledge.
  • Another participant recommends Aaronson's lecture notes on quantum computing as an additional resource, noting that a book based on those notes will be released soon.

Areas of Agreement / Disagreement

Participants generally agree on the importance of a solid mathematical foundation for studying quantum theory, but there is no consensus on the specific resources or the best approach to learning.

Contextual Notes

Participants express varying levels of familiarity with the mathematics required for quantum theory, indicating that individual backgrounds may significantly influence the choice of resources.

Who May Find This Useful

Individuals with a background in sciences, particularly those transitioning from fields like biochemistry to physics, may find this discussion relevant for identifying suitable learning materials in quantum theory.

marshalljman
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Hello all,

I am new to the forums here. My background is biochemistry and I currently work in a medical laboratory. What brings me here is a new found interest in physics, in particular, quantum theory. I would like to learn much more ranging from the basics to M theory etc..

I would greatly appreciate if someone could point me in the direction of some quality texts that cover these topics. Keep in mind, my background in physics is limited, including one year of physics, a year of physical chemistry and two years of calculus. Therefore, I feel I have the background to understand technical information but need some basic quantum theory to work my way up to the more advanced concepts.

Thank you.
 
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Take a look at Ballentine's "QM -- A Modern Development" via Amazon's "look inside" feature and see whether you're comfortable with the level of math that he uses.
If you can handle that, it's certainly a good QM book to study.
 


strangerep said:
Take a look at Ballentine's "QM -- A Modern Development" via Amazon's "look inside" feature and see whether you're comfortable with the level of math that he uses.
If you can handle that, it's certainly a good QM book to study.

I took a good look at this book and I suppose the better question is what mathematics should I learn to prepare myself for learning advanced physics?

I'm assuming that I need some linear algebra, Multi-variable Calc and differential equations. What about discrete? I've had Calc I, Calc II, Advanced Statistics, trig, analytical geometry.
 
You need a lot of linear algebra. Ballentine uses functional analysis at a high level. Shilov's Elementary Functional Analysis is a good survey of that sort of maths. You also need multivariate calculus, not on the level of, say, Calculus on Manifolds, but at least enough to ace a final exam in an honors course of "Calculus III."

I would also look at Aaronson's lecture notes on quantum computing in addition to Ballentine. He is turning this into a book which is to be released in a few months.
 


marshalljman said:
I took a good look at [Ballentine] and I suppose the better question is what mathematics should I learn to prepare myself for learning advanced physics?
That doesn't give us enough detailed information on your current background. If you start reading the first chapter, how far do you get before you hit some maths you totally don't understand?

Sometimes, jumping into the deep end can work...
 

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