Good book to break into quantum mechanics

In summary: I get to a point where I'm left wanting more.In summary, the person is finishing a book on the history of the universe and is now looking for a book to introduce them to quantum mechanics. They are not looking for a textbook, but rather a book similar to "A Brief History of Time". Recommendations are given for books such as "The Fabric of the Cosmos" by B. Greene, "The Odd Quantum" by Sam Treiman, "Feynman's Lectures on Physics" (specifically volume 3), "The God Particle" by Leon Lederman, and "QED: The Strange Theory of Light and Matter" by Richard Fey
  • #1
gbux512
3
0
so I am just finishing up hawkins a brief history of the universe, and while dated, it was a good read. I am looking for something to break me into quantum mechanics. everything i see/hear about it intrigues me and i need to know more. i need advice on a good book to break me into it. I am not looking for a textbook persay, but more of a book that's along the lines of a brief history of the universe. I've taken my first year of physics, as well as calc 1-3, but no linear or diff eqs yet (taking linear this semester).
 
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  • #3
If you have a calculus background, get "The Odd Quantum" by Sam Treiman. Its not exactly popular science as it has quite a bit of equations (which, by the way, can be skipped without hurting the follow of the text), but, it is supposed to be for someone who knows some math and wants to get a proper overview of actual quantum theory, all the way up to quantum fields and standard model. Highly recommended!
 
  • #4
I would recommend classics: "Feynman's Lectures on Physics" - vol.3 is fully devoted to QM. Perfect book at introductory level.
 
  • #5
Saim and xts, I don't think that your recommendations are compatible with his wishes:
gbux512 said:
I am not looking for a textbook persay, but more of a book that's along the lines of a brief history of the universe.
(Of course, he means "A brief history of time".)
 
  • #6
Demystifier said:
I don't think that your recommendations are compatible with his wishes: (Of course, he means "A brief history of time".)
I hardly can imagine anything more compatible :confused:
Feynman's lecture is a popular lecture (it was originally designed as intro course for non-physics students) rather than academic textbook. It is focused on intuitions, understanding, ideas and meanings, rather than on mathematical formalisms.

I don't recommend Laundau and Lifgarbagez's Quantum Mechanics - that would be deserve to be criticized for incompatibility :devil:
 
  • #7
xts said:
I hardly can imagine anything more compatible :confused:
Feynman's lecture is a popular lecture (it was originally designed as intro course for non-physics students) rather than academic textbook. It is focused on intuitions, understanding, ideas and meanings, rather than on mathematical formalisms.
Come on, Feynman lectures contain many equations, even if they are not the focus. By constrast, Hawking's "brief history" contains only one (E=mc^2). How can they be on the same level? Or perhaps you meant Feynman's "The character of the physical law"? Yes, "the character" (but not "the lectures") is a good POPULAR book which may very well be what gbux needs.
 
  • #8
Demystifier said:
Saim and xts, I don't think that your recommendations are compatible with his wishes:
I agree Feynman's lectures are inappropriate for the requirement but I stand by my own recommendation :D I used Treiman's book as a first, slightly non-popular, intro.
 
  • #10
I recommend "The God Particle" by Leon Lederman. It's a light-weight, humorous introduction to particle physics and the quest for the Higgs Boson. You will learn a lot about the past experimenters and their contribution to physics, the mysterious stuff that is matter, what particle accelerators do, nature's broken symmetry and more along the way.

If you would like to see first hand, the 7 part lectures of Feynman at Cornell, head to
http://research.microsoft.com/apps/tools/tuva/index.html
 
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  • #11
The best book on quantum mechanics that has real content and will train your intuition without getting bogged down in math is Feynman's "QED: The Strange Theory of Light and Matter". https://www.amazon.com/dp/0691125759/?tag=pfamazon01-20

Note that while he says he's talking about particles, he's really describing waves (the phase of the rotating "pointers" he uses is a description of wave propagation, but considering only one moving point at a time, rather than all the points of the wave at once. This makes things easier to follow, but sweeps one of the main bits of real weirdness under the rug: why do quanta always propagate only as waves and interact only as particles? (One can interpret the lines of Feynman diagrams as wave propagation and the junctions as particle interactions.)

***
You can watch some relates lectures by Feynman in New Zealand at: http://vega.org.uk/video/subseries/8
It really gets going about 18 minutes into the 2nd lecture.

***
For understanding the math, it's better to study AC circuits first. The math is nearly identical - phases as complex numbers. Passive circuits (with resistors, capacitors, inductors, voltage and current sources) are represented as systems of equations set up according to conservation laws (Kirchoff's), which in turn become complex-valued matrices. This is then applied to the complex-valued spectral responses of filters and so forth. In QM these circuits and filters are made finer-grained (infinite circuit elements or continuous wavelength/momentum or time-domain/position descriptions=> infinite dimensional matrices) and the interpretation shifts to a probabilistic one, but the groundwork and most of the math is very similar. The difference is that in EE it seems to me that there is usually more of an effort in teaching to foster understanding rather than just symbol-shuffling facility.
 
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  • #12
+1 for Treiman. Yes, he has more than one equation, but the math in it would not be the least bit daunting for the OP, who says he has taken Calc III.
 
  • #13
wow i really stirred something up here! i suppose i could put some big boy pants on and hop into a book with some equations in it, and if its too much too soon, bring it down a level. I really appreciate all the help everyone has given me so far, you guys are great. I can always pick up a couple books as well. I've been thinking its time to move past the pop sci genre and get into the real meat and potatoes, because in a lot of the books I've read (i used the hawkins book as one example) I've really started to overlap, as in when I read through a book a lot of what I read I've seen elsewhere. Treiman seems like a nice stepping stone. Also, I heard somewhere whether it be in a documentary or book, that a lot of quantum mechanics is based in linear algebra. Is there any truth to this?
 
  • #14
gbux512 said:
Also, I heard somewhere whether it be in a documentary or book, that a lot of quantum mechanics is based in linear algebra. Is there any truth to this?
Yes, its all linear algebra! though a little different from that taught in a first course. Not to worry however, anything beyond the standard linear algebra is taught along with the physics in all QM texts.
 
  • #15
saim_ said:
Yes, its all linear algebra!

awesome. I am unbelievably excited to take linear this semester then, because QM has caught my attention from first hearing it
 
  • #16
gbux512 said:
awesome. I am unbelievably excited to take linear this semester then, because QM has caught my attention from first hearing it

Not so fast. I can believe it. (sorry, couldn't resist)
 

1. What is quantum mechanics?

Quantum mechanics is a branch of physics that studies the behavior of particles at the atomic and subatomic level. It explains how particles such as electrons and photons behave and interact with each other.

2. Why is it important to understand quantum mechanics?

Quantum mechanics is important because it allows us to understand and predict the behavior of particles at the smallest scale, which has significant implications in fields such as chemistry, materials science, and technology.

3. How can I learn quantum mechanics?

To learn quantum mechanics, a strong foundation in mathematics and physics is necessary. It is recommended to start with introductory courses in classical mechanics, electromagnetism, and linear algebra before diving into quantum mechanics textbooks and lectures.

4. What are some good books to start with for learning quantum mechanics?

Some good introductory books for learning quantum mechanics include "Introduction to Quantum Mechanics" by David J. Griffiths, "Quantum Mechanics for Scientists and Engineers" by David A. B. Miller, and "Principles of Quantum Mechanics" by R. Shankar.

5. What are some common misconceptions about quantum mechanics?

Some common misconceptions about quantum mechanics include the idea that it only applies to very small particles, that it can be used to explain consciousness or paranormal phenomena, and that it violates the principles of cause and effect. In reality, quantum mechanics is a well-tested and established theory that has many practical applications in science and technology.

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