A good quantum mechanics book for the self-learner?

In summary, the conversation revolves around finding a book to teach oneself quantum mechanics. Suggestions for books include "Classical Mechanics" by John R Taylor, "Quantum Mechanics Demystified" from the "Demystified" series, "Principles of Quantum Mechanics" by Shankar, "Modern Quantum Mechanics" by Sakurai, and "Quantum Theory: Concepts and Methods" by Asher Peres. Personal favorites include "Alice in Quantumland" for an introduction to the subject, and "Understanding Quantum Physics" by Morrison as a stepping stone to more advanced books.
  • #36
Mugwump101 said:
How is the Linus Pauling book on Quantum Mechanics with Applications to Chemistry?

I've skimmed through it. It's decent. A great introductory book for Quantum Mechanics applied to chemical systems is Ira Levine's Quantum Chemistry. It requires only very basic math: calculus, multivariable calculus, linear algebra, and differential equations. For relativistic quantum mechanics applied to chemistry there is Relativistic Quantum Mechanics by Kenneth G. Dyall & Knut Faegri Jr.
 
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  • #37
Well Landau Quantum mechanics is maby not introductionary course,but deffinetly something that have to be seen.Mesiah Quantum mechanics with its two levels maby is the best thing.Herbut Quantum mechanics cover all aspects with group theory applications,but not sure if english version is avaliable.
 
  • #38
robphy said:
These books, "Understanding [More] Quantum Physics" by Morrison,
https://www.amazon.com/gp/product/0137479085/?tag=pfamazon01-20
https://www.amazon.com/gp/product/0139283005/?tag=pfamazon01-20
might be a good stepping stone for the self-learner
to the more advanced QM texts.

I second this recommendation. My wife has these, and I think they are phenomenal. Reading them is like attending a course given by a truly gifted lecturer. The first book covers basics, in a way that anyone can understand. He does a much better than average job of explaining both the physics and going through the mechanics of using QM to solve problems, including pointing out pitfalls. The second book includes perturbation theory, etc., and is also very good but not quite as good as the first book.

Definitely great books for the self-learner.

jason
 
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  • #39
Well after seeing Lenard Suskinds lectures on quantum mechanics at youtube all books seems less less interesting.Also at youtube great teacher prof Balakhrishnan lectures on quantum physics are really profound introductionary course.
 
  • #40
I would very warmly recommend "Quantum Mechanics: Concepts and Applications" by Nouredine Zettili. It is packed with solved problems and gives a very clear and gradual introduction to quantum physics. Mind you, you should still learn linear algebra in depth before doing any quantum physics.
 
  • #41
Best book.ever about Quantum Mechanics is Cohen-Tannoudji, it's for underdegree and for graduate studies. You will find it fun!
 
  • #42
I recommend Quantum Physics: A Fundamental Approach to Modern Physics by Townsend (literally brand new (2010), not to be confused with his Quantum Mechanics book). Currently using this book in my into quantum course.
 
  • #43
I can't recommend a book but I have been following this free lecture series you might find useful if you have not heard of nptel yet.

http://nptel.iitm.ac.in/video.php?courseId=1090 [Broken]
 
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  • #44
Is there a book teachs you only the mathematical tools before you start?
 
  • #45
we have get so many choices,I am really confused...I mean is there any physics professor of physics in the forum that can tell us what is the best? and when do you know you've get it?...because if there is an other way,I wil go directly to String Theory,but relativity and Quantum Mechanics are the basic tools...thanks for everyone,and we wait for an answer
 
  • #46
totentanz said:
we have get so many choices,I am really confused...I mean is there any physics professor of physics in the forum that can tell us what is the best? and when do you know you've get it?...because if there is an other way,I wil go directly to String Theory,but relativity and Quantum Mechanics are the basic tools...thanks for everyone,and we wait for an answer

I don't know about the other recommendations, but at least for mine, it was assigned by a prof. and I liked it. The prof. probably assigned it because they thought it was "the best" for intro quantum. So, by asking if there's a prof. that will tell you which is "the best," you aren't going to get any better answers since often students only know about texts assigned or recommended by a prof., so the students' recommendation of what is "the best" is really a trickle down of what a prof. thought was "the best."

As for the just learning the mathematical tools for QM, on an elementary level you'll need differential equations and linear algebra. At higher levels you'll need partial differential equations, Fourier analysis, perturbation theory, path integration, etc. Most of this is taught in upper level undergrad physics classes. How much you need depends on how far into QM you want to go. In my mind, a "math tools for QM" book without any QM is not worth reading; you won't learn the context of what you're doing in relation to the math or the physics. You're better off just learning the math from a QM book or a regular math text.

If you just want to go straight into string theory, there are popular science books which will introduce you to the subject. If you want the full technical details of string theory, you'll probably need much more knowledge of physics than intro qm and relativity. I don't know any more about string theory than what's in popular shows on the Science Channel, so I can't say for sure what all the math/physics it requires.
Probably of interest to you: http://ocw.mit.edu/courses/physics/8-251-string-theory-for-undergraduates-spring-2007/
 
  • #47
rhombusjr said:
I don't know about the other recommendations, but at least for mine, it was assigned by a prof. and I liked it. The prof. probably assigned it because they thought it was "the best" for intro quantum. So, by asking if there's a prof. that will tell you which is "the best," you aren't going to get any better answers since often students only know about texts assigned or recommended by a prof., so the students' recommendation of what is "the best" is really a trickle down of what a prof. thought was "the best."

As for the just learning the mathematical tools for QM, on an elementary level you'll need differential equations and linear algebra. At higher levels you'll need partial differential equations, Fourier analysis, perturbation theory, path integration, etc. Most of this is taught in upper level undergrad physics classes. How much you need depends on how far into QM you want to go. In my mind, a "math tools for QM" book without any QM is not worth reading; you won't learn the context of what you're doing in relation to the math or the physics. You're better off just learning the math from a QM book or a regular math text.

If you just want to go straight into string theory, there are popular science books which will introduce you to the subject. If you want the full technical details of string theory, you'll probably need much more knowledge of physics than intro qm and relativity. I don't know any more about string theory than what's in popular shows on the Science Channel, so I can't say for sure what all the math/physics it requires.
Probably of interest to you: http://ocw.mit.edu/courses/physics/8-251-string-theory-for-undergraduates-spring-2007/

Thanks for your answer,but what I want to say is that I am really confused,I started with "QM Demystified" and I think is a good book and it make the proble part of the cours and when you solve them by your own,you feel wonderful...but days ago someone in the forum told me that it is the worst choice...and I started over again with Griffiths...what do you think?
 
  • #48
totentanz said:
Thanks for your answer,but what I want to say is that I am really confused,I started with "QM Demystified" and I think is a good book and it make the proble part of the cours and when you solve them by your own,you feel wonderful...but days ago someone in the forum told me that it is the worst choice...and I started over again with Griffiths...what do you think?

I can't say that I've read "QM Demystified" or Griffiths, so I can't give an opinion on either. I have found Griffiths E&M book to be quite good, so his QM text shouldn't be a bad choice. In general I would be wary of Demystified books, I've heard professors give many recommendations for supplementary texts for various classes and I've never ever heard of a "Demystified" or "For Dummies" type of book recommended. Speaking of recommendations, one that comes up over and over again is Feynman's Lectures on Physics. Its a three volume set and the the 3rd one focuses on QM. Its definitely one that you want to look at.
 
  • #49
I quite like 'Quantum Reality: Theory and Philosophy' by Jonathan Allday. Covers the basics with UK High School level Maths.
http://www.crcpress.com/product/isbn/9781584887034;jsessionid=f87EFAqvnf1-tQwo+Gog7w** [Broken]
 
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  • #50
thanks rhombusjr
 
  • #51
totentanz said:
Thanks for your answer,but what I want to say is that I am really confused,I started with "QM Demystified" and I think is a good book and it make the proble part of the cours and when you solve them by your own,you feel wonderful...but days ago someone in the forum told me that it is the worst choice...and I started over again with Griffiths...what do you think?

The reason someone told you that is probably because McMahon has a reputation for sloppiness in his writing, and the publisher for sloppiness in their editing.
 
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  • #52
totentanz said:
Thanks for your answer,but what I want to say is that I am really confused,I started with "QM Demystified" and I think is a good book and it make the proble part of the cours and when you solve them by your own,you feel wonderful...but days ago someone in the forum told me that it is the worst choice...and I started over again with Griffiths...what do you think?

Wow, you stopped reading a book you liked because some anonymous stranger on the internet said it was bad?

I don't know about you, but when I registered for this forum, nobody checked my credentials. The guy who said it was bad may be a super-genius who thinks any text below advanced graduate level is a waste of time, or he may be an idiot who flunked out of college and blames whatever texts he was using. Or he may just have different tastes than you.

I've seen a lot of posts in this forum that say "X is a terrible book," where X is a text that many, many profs in many, many universities have been using for years. In fact, I can give two examples right off the top of my head --- Tipler's Physics, and Strang's Linear Algebra. Both get panned here, but both have been widely used for years, as you can see by googling for syllabi at ".edu" sites.

I have no knowledge of the particular book you're talking about, but if I liked a book, I'd keep reading it even if my best friend said he didn't like it. I sure as hell wouldn't stop reading it because some stranger didn't like it.
 
  • #53
brocks said:
Wow, you stopped reading a book you liked because some anonymous stranger on the internet said it was bad?

I don't know about you, but when I registered for this forum, nobody checked my credentials. The guy who said it was bad may be a super-genius who thinks any text below advanced graduate level is a waste of time, or he may be an idiot who flunked out of college and blames whatever texts he was using. Or he may just have different tastes than you.

I've seen a lot of posts in this forum that say "X is a terrible book," where X is a text that many, many profs in many, many universities have been using for years. In fact, I can give two examples right off the top of my head --- Tipler's Physics, and Strang's Linear Algebra. Both get panned here, but both have been widely used for years, as you can see by googling for syllabi at ".edu" sites.

I have no knowledge of the particular book you're talking about, but if I liked a book, I'd keep reading it even if my best friend said he didn't like it. I sure as hell wouldn't stop reading it because some stranger didn't like it.

Listen my friend,I am not an expert on the field...imagine that you are in a city that you do not know and you ask a stranger for direction...there is two opetions,the stranger know the city or not 50-50,and then,if the stranger is telling the truth or not...and at last you get 25% chance to find your way...but if you count on your self you have 0% chance to find the way...
 
  • #54
If i may interrupt, realizing i am the source of your little controversy, i'd like to say what is my point of view about this matter. I am at pretty the same situation with totentanz (self learner) and i am at about the same mathematical skill level. Two years before, i started to try understand QM. I got Mahon first but, guess what, great disappointment. Despite the "demystified" label, i can assure you it was not demystifying at all. The guy who wrote it must have thought that his book will be read from graduates on QM, otherwise i cannot explain all these things he was taking for granted as mathematical prerequisites. Of course, you can put in our equation the fact that I'm not a genius so all these may be simple but i just can't undestand them. Though, when i got griffiths, it was like an eureka moment. Reading his book makes you think you have a professor teaching you. And this is the most important thing for self learners, since we do not have the opportunity of being in a classroom. I shall not write more because you're going to thing i am griffiths' son or something. I just wanted to quote my point of view about this.
 
  • #55
dark_raider said:
If i may interrupt, realizing i am the source of your little controversy, i'd like to say what is my point of view about this matter. I am at pretty the same situation with totentanz (self learner) and i am at about the same mathematical skill level. Two years before, i started to try understand QM. I got Mahon first but, guess what, great disappointment. Despite the "demystified" label, i can assure you it was not demystifying at all. The guy who wrote it must have thought that his book will be read from graduates on QM, otherwise i cannot explain all these things he was taking for granted as mathematical prerequisites. Of course, you can put in our equation the fact that I'm not a genius so all these may be simple but i just can't undestand them. Though, when i got griffiths, it was like an eureka moment. Reading his book makes you think you have a professor teaching you. And this is the most important thing for self learners, since we do not have the opportunity of being in a classroom. I shall not write more because you're going to thing i am griffiths' son or something. I just wanted to quote my point of view about this.

Thanks my friend,I want to get familair with the tools...for the concerpts,you can try the Teaching Company courses like (Einstein,physist,philosopher,..)or better one (Relativity and Quantum Revolution)...but we need to know the mathematical tools,so we can understand how the theory really works
 
  • #56
I am not exactly sure about what exactly you're searching for. Do you need the mathematics of the physics needed for string theory?
 
  • #57
dark_raider said:
I am not exactly sure about what exactly you're searching for. Do you need the mathematics of the physics needed for string theory?

Yes this is what I want...after looking I think quantum mechanics will take me 3-5 years to get it ,then I will go to general relativity say an other 5 years then QED and QCD then String Theory...(I hope to live until this time)...as Hawking once put it "There is two kind of people get paied for doing what they like: a prostitute,and a true man of science"
 
  • #58
Wow you are very patient. Actually as i see it this is the no1 skill a self learner must have. Personally, i prefer to go through all these fields you said (QM, GR, SR, QED) at the same time. You see, since i am not bunded to a university's program, i like to keep interchanging between them in order not to get bored. But that's me.
Anyway, i think it's all about what you want to learn. I for example want to know more about how all these work. I am not interested in finding new solutions to the equations of GR, or get a PhD in physics. I just ask "why". That said, i put more efford on the geometrical interpretation of the mathematics used in physics. Actually to my surprise, i found out that the way physics is taught in universities (at least in my country) is a mechanistic one. Students just keep doing exercises, not realizing why they are solved the way they do.
In conclusion, i think that the sources that have helped me most during these three years of self learning are griffiths' books, susskind's lectures on youtube and endless hours in wikipedia.
 
  • #59
dark_raider said:
Wow you are very patient. Actually as i see it this is the no1 skill a self learner must have. Personally, i prefer to go through all these fields you said (QM, GR, SR, QED) at the same time. You see, since i am not bunded to a university's program, i like to keep interchanging between them in order not to get bored. But that's me.
Anyway, i think it's all about what you want to learn. I for example want to know more about how all these work. I am not interested in finding new solutions to the equations of GR, or get a PhD in physics. I just ask "why". That said, i put more efford on the geometrical interpretation of the mathematics used in physics. Actually to my surprise, i found out that the way physics is taught in universities (at least in my country) is a mechanistic one. Students just keep doing exercises, not realizing why they are solved the way they do.
In conclusion, i think that the sources that have helped me most during these three years of self learning are griffiths' books, susskind's lectures on youtube and endless hours in wikipedia.

Yes my friend,you are abslutly right,for me I study mechanics(vehicules)...and we've learned linear algebra(I personally hated the subject)...and I discovered that it is one of the mathematical foundation of Quantum Theory...and I've spent 5 years in the university and I still in the second year...and I've learn ONE thing ,just a simple one..."It is not the paper that makes you,is what you do that makes you what you are now" thank you my friend
 
  • #60
totentanz said:
Yes this is what I want...after looking I think quantum mechanics will take me 3-5 years to get it ,then I will go to general relativity say an other 5 years then QED and QCD then String Theory...(I hope to live until this time)...as Hawking once put it "There is two kind of people get paied for doing what they like: a prostitute,and a true man of science"

You do realize you could get a Ph.D. in physics in that amount of time, right? Starting from square 1: 4 years for B.S., ~5-6 for Ph.D.

A word of caution: String Theory is still just a theory, and there are many respectable physicists who doubt it's correctness. So there's a chance that by the time you've self-taught yourself QED, QCD, QFD, that String Theory will have been proven wrong. Not saying that will be the case, but it could happen.
 
  • #61
rhombusjr said:
You do realize you could get a Ph.D. in physics in that amount of time, right? Starting from square 1: 4 years for B.S., ~5-6 for Ph.D.

A word of caution: String Theory is still just a theory, and there are many respectable physicists who doubt it's correctness. So there's a chance that by the time you've self-taught yourself QED, QCD, QFD, that String Theory will have been proven wrong. Not saying that will be the case, but it could happen.

I do not want to have ?in physics,I just want to understand it,it is as simple as that,and a bout the wrong path of String Theory,maybe you are right,but do we have a better choice?I personally don't like the people who critique alot...as one philosopher(I don't not remember who he is): "To find a fault,this maybe easy,but to do better ,this maybe difficault"
I know many PhD proffesssors in my university in physics who does not have any idea about String Theory or Quantum Loop Theory...outside of his special field,he is like Alice,have no idea how deep the rabbit hole goes...thanks
 
  • #62
totentanz said:
we have get so many choices,I am really confused...I mean is there any physics professor of physics in the forum that can tell us what is the best? and when do you know you've get it?...because if there is an other way,I wil go directly to String Theory,but relativity and Quantum Mechanics are the basic tools...thanks for everyone,and we wait for an answer
What is best depends on what you know already and at which level of sophisitcation you know it. There is no canned answer.

Try http://de.arxiv.org/abs/0810.1019
 
  • #63
A. Neumaier said:
What is best depends on what you know already and at which level of sophisitcation you know it. There is no canned answer.

Try http://de.arxiv.org/abs/0810.1019

Thanks...but I am intersted in how to DO QM.thanks for the book it seems very intersting after reading the index
 
  • #64
totentanz said:
Thanks...but I am intersted in how to DO QM.thanks for the book it seems very intersting after reading the index

Reading about QM well done tells you how to do it.

By the way, a discussion thread for the current draft (v2) of my book ''Classical and Quantum Mechanics via Lie algebras'' has just be approved - see https://www.physicsforums.com/showthread.php?t=490492
You may post there questions or comments regarding the material in the book.
 
  • #65
A beautiful Quantum Mechanics and Introductory Quantum Field Theory book I recently got my hands on is Desai

https://www.amazon.com/dp/0521877601/?tag=pfamazon01-20

Very clear book, I would recommend it to the beginner, work it all the way to the end and then you can pick up a QFT book, no problem.
 
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  • #66
thank you for your asking, I am ready to learn quantum mechanics, so I got lots of information from the replies, thanks.
 
  • #67
Griffith An intriduction to QM
 
  • #68
Qubix said:
A beautiful Quantum Mechanics and Introductory Quantum Field Theory book I recently got my hands on is Desai

https://www.amazon.com/dp/0521877601/?tag=pfamazon01-20

Very clear book, I would recommend it to the beginner, work it all the way to the end and then you can pick up a QFT book, no problem.

800 page book. I am 42 - I will probably retire before I finish this book :) It looks very good however, so, I ordered a used copy.
 
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  • #69
I strongly recommend Townsend's A Modern Approach to Quantum Mechanics. Crystal clear, ample examples. Feels like he's telling you a story without losing the mathematical rigor. He claims it's the best undergraduate QM book out there. Definitely the best one I've ever read.

https://www.amazon.com/dp/1891389785/?tag=pfamazon01-20
 
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  • #70
pillow47 said:
I strongly recommend Townsend's A Modern Approach to Quantum Mechanics.
Based off of the Amazon preview, this book looks quite similar, in exposition and level of rigor, to Sakurai's text. If you have used Sakurai yourself, would you say Townsend's book is unequivocally better than Sakurai's text? Or at least to first order :biggrin:?
 
<h2>1. What are the key concepts that a good quantum mechanics book for self-learners should cover?</h2><p>A good quantum mechanics book for self-learners should cover the basic principles and theories of quantum mechanics, such as wave-particle duality, uncertainty principle, superposition, and entanglement. It should also include mathematical tools and techniques used in quantum mechanics, such as linear algebra and complex numbers.</p><h2>2. Is it necessary to have a strong background in physics and mathematics to understand a quantum mechanics book for self-learners?</h2><p>While a strong background in physics and mathematics can be helpful, it is not necessary to understand a quantum mechanics book for self-learners. Many books are designed for beginners and provide clear explanations and examples to help readers grasp the concepts. However, some familiarity with basic physics and math concepts may make the learning process easier.</p><h2>3. Are there any recommended books for self-learning quantum mechanics?</h2><p>Yes, there are many recommended books for self-learning quantum mechanics, such as "Quantum Mechanics: The Theoretical Minimum" by Leonard Susskind and Art Friedman, "Quantum Mechanics Demystified" by David McMahon, and "Introduction to Quantum Mechanics" by David J. Griffiths. It is important to choose a book that suits your learning style and level of understanding.</p><h2>4. How can I practice and apply the concepts learned from a quantum mechanics book for self-learners?</h2><p>There are many ways to practice and apply the concepts learned from a quantum mechanics book for self-learners. You can solve practice problems and exercises provided in the book, watch online lectures or tutorials, or join a study group to discuss and apply the concepts with others. You can also try to apply the concepts to real-world examples and experiments.</p><h2>5. Can a quantum mechanics book for self-learners prepare me for advanced studies in quantum physics?</h2><p>Yes, a good quantum mechanics book for self-learners can provide a solid foundation for advanced studies in quantum physics. It covers the fundamental concepts and mathematical tools used in quantum mechanics, which are essential for understanding more complex theories and applications. However, it is important to also supplement your learning with other resources and seek guidance from experts in the field.</p>

1. What are the key concepts that a good quantum mechanics book for self-learners should cover?

A good quantum mechanics book for self-learners should cover the basic principles and theories of quantum mechanics, such as wave-particle duality, uncertainty principle, superposition, and entanglement. It should also include mathematical tools and techniques used in quantum mechanics, such as linear algebra and complex numbers.

2. Is it necessary to have a strong background in physics and mathematics to understand a quantum mechanics book for self-learners?

While a strong background in physics and mathematics can be helpful, it is not necessary to understand a quantum mechanics book for self-learners. Many books are designed for beginners and provide clear explanations and examples to help readers grasp the concepts. However, some familiarity with basic physics and math concepts may make the learning process easier.

3. Are there any recommended books for self-learning quantum mechanics?

Yes, there are many recommended books for self-learning quantum mechanics, such as "Quantum Mechanics: The Theoretical Minimum" by Leonard Susskind and Art Friedman, "Quantum Mechanics Demystified" by David McMahon, and "Introduction to Quantum Mechanics" by David J. Griffiths. It is important to choose a book that suits your learning style and level of understanding.

4. How can I practice and apply the concepts learned from a quantum mechanics book for self-learners?

There are many ways to practice and apply the concepts learned from a quantum mechanics book for self-learners. You can solve practice problems and exercises provided in the book, watch online lectures or tutorials, or join a study group to discuss and apply the concepts with others. You can also try to apply the concepts to real-world examples and experiments.

5. Can a quantum mechanics book for self-learners prepare me for advanced studies in quantum physics?

Yes, a good quantum mechanics book for self-learners can provide a solid foundation for advanced studies in quantum physics. It covers the fundamental concepts and mathematical tools used in quantum mechanics, which are essential for understanding more complex theories and applications. However, it is important to also supplement your learning with other resources and seek guidance from experts in the field.

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