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         Quantum Mechanics:     more books (100)
  1. The Amazing Story of Quantum Mechanics: A Math-Free Exploration of the Science that Made Our World by James Kakalios, 2010-10-14
  2. Introduction to Quantum Mechanics (2nd Edition) by David J. Griffiths, 2004-04-10
  3. Principles of Quantum Mechanics by R. Shankar, 1994-09-01
  4. Schaum's Outline of Quantum Mechanics, Second Edition (Schaum's Outline Series) by Yoav Peleg, Reuven Pnini, et all 2010-05-04
  5. The Quantum World: Quantum Physics for Everyone by Kenneth W. Ford, 2005-10-15
  6. Quantum Mechanics and Path Integrals: Emended Edition (Dover Books on Physics) by Richard P. Feynman, Albert R. Hibbs, et all 2010-07-21
  7. Modern Quantum Mechanics (2nd Edition) by J. J. Sakurai, Jim J. Napolitano, 2010-07-14
  8. Quantum Mechanics in Simple Matrix Form by Thomas F. Jordan, 2005-12-20
  9. Quantum Mechanics for Scientists and Engineers (Classroom Resource Materials) by David A. B. Miller, 2008-04-21
  10. Quantum Mechanics (2nd Edition) by B.H. Bransden, C.J. Joachain, 2000-02-07
  11. Quantum Physics Workbook For Dummies by Steven Holzner, 2010-01-26
  12. Quantum Mechanics (2 Volumes in 1) by Albert Messiah, 1999-07-06
  13. Introduction to Quantum Mechanics: A Time-Dependent Perspective by David J. Tannor, 2006-10-30
  14. Quantum Mechanics and Experience by David Z Albert, 1994-03-15

1. Physics Virtual Bookshelf: Quantum Mechanics
A collection of articles explaining basic concepts in quantum mechanics.
http://www.upscale.utoronto.ca/GeneralInterest/QM.html
Quantum Mechanics Manhy of the listings are roughly in the order in which these topics might be taught. Topic Description Author Format Wave-Particle Duality A brief summary of wave-particle duality, from a first year physics course that uses minimal mathematics; the entire set of materials from the course is available by clicking here Anthony W. Key html Quantum Interference A brief summary of quantum interference and the uncertainty principle, from a first year physics course that uses minimal mathematics; the entire set of materials from the course is available by clicking here Anthony W. Key html Double Slit: html pdf A discussion of the "Feynman double slit," which forms the basis of many discussions of Quantum Mechanics. The topic is quite subtle, but the document is equally accessible to students at all levels. (183k/216k) David M. Harrison html and pdf The Bohr Model of the Atom A very brief introduction, originally designed for upper-year liberal arts students. (30k) David M. Harrison

2. An Introduction To Quantum Mechanics
An introduction to the principles of quantum mechanics is presented here.
http://www.chemistry.ohio-state.edu/betha/qm
What is a Wave Function? What is an Orbital? :
An Introduction to Quantum Mechanics
Neal McDonald, Midori Kitagawa-DeLeon, Anna Timasheva,Heath Hanlin,Zil Lilas,and Sherwin J. Singer
An introduction to the principles of quantum mechanics is presented here. It is intended to supplement the discussion of hydrogen and many-electron orbitals commonly found in general chemistry text books with a deeper understanding of the underlying physical principles. The relationship between classical and quantum mechanics is explored to illustrate how physical objects can be viewed both as a particle and a wave.
Contents:
  • Classical Mechanics.
  • Trajectories.
  • QM is completely different.
  • Uncertainty. ...
  • The Aufbau principle.
    If your computer can play sound, and you have Shockwave plug-in loaded, choose the topics listed above to hear a discussion of quantum mechanics. If not, choose the same topics listed below to read a text-only version of the same discussion.
  • Classical Mechanics.
  • Trajectories.
  • QM is completely different.
  • Uncertainty. ...
    To the third tutorial: An introduction to quantum mechanics.
  • 3. Measurement In Quantum Mechanics FAQ
    2. Some Basic Ideas about quantum mechanics Modern physics is dominated by the concepts of quantum mechanics. This page aims to give a brief introduction to some of these ideas.
    http://www.mtnmath.com/faq/meas-qm.html
    Previous Next Table of Contents
    Measurement in quantum mechanics FAQ
    Maintained by Paul Budnik, paul@mtnmath.com http://www.mtnmath.com
    This FAQ describes the measurement problem in QM and approaches to its solution. Please help make it more complete. See What is needed for details. Web version: http://www.mtnmath.com/faq/meas-qm.html
    About this FAQ
    The measurement problem
    Schrodinger's cat ...
    Is this a real FAQ?
    Previous Next Table of Contents Mountain Math Software
    NEW:
    book on physics mathematics and consciousness home about ... infinite
    Comments to: webmaster@mtnmath.com

    4. Todd's Quantum Intro
    Intro to quantum mechanics This page is intended to give an ordinary person a brief overview of the importance and wonder of quantum mechanics.
    http://www-theory.chem.washington.edu/~trstedl/quantum/quantum.html
    Intro to Quantum Mechanics Sigh
    So please read on, and take a dip in an ocean of information that I find completely invigorating!
    If the above picture is your idea of an atom, with electrons looping around the nucleus, you are about 70 years out of date. It's time to open your eyes to the modern world of quantum mechanics! The picture below shows some plots of where you would most likely find an electron in a hydrogen atom (the nucleus is at the center of each plot). What is quantum mechanics? Simply put, quantum mechanics is the study of matter and radiation at an atomic level. Why was quantum mechanics developed? In the early 20th century some experiments produced results which could not be explained by classical physics (the science developed by Galileo Galilei, Isaac Newton, etc.). For instance, it was well known that electrons orbited the nucleus of an atom. However, if they did so in a manner which resembled the planets orbiting the sun, classical physics predicted that the electrons would spiral in and crash into the nucleus within a fraction of a second. Obviously that doesn't happen, or life as we know it would not exist. (Chemistry depends upon the interaction of the electrons in atoms, and life depends upon chemistry). That incorrect prediction, along with some other experiments that classical physics could not explain, showed scientists that something new was needed to explain science at the atomic level. If classical physics is wrong, why do we still use it?

    5. Visual Quantum Mechanics
    The Visual quantum mechanics project, funded by the National Science Foundation,involves the development of instructional units that introduce quantum physics
    http://phys.educ.ksu.edu/
    Interactive Computer Programs The Visual Quantum Mechanics project , funded by the National Science Foundation , involves the development of instructional units that introduce quantum physics to high school and college students who do not have a background in modern physics or higher level math. To reach these students, the instructional units integrate interactive computer programs and digital multimedia with inexpensive materials and written documents in an activity-based environment.

    6. Everett's Relative-State Formulation Of Quantum Mechanics
    Describes Everett's attempt to solve the measurement problem by dropping the collapse dynamics from the standard von NeumannDirac theory of quantum mechanics. By Jeffrey A. Barrett.
    http://plato.stanford.edu/entries/qm-everett/
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    Everett's Relative-State Formulation of Quantum Mechanics
    Everett's relative-state formulation of quantum mechanics is an attempt to solve the measurement problem by dropping the collapse dynamics from the standard von Neumann-Dirac theory of quantum mechanics. The main problem with Everett's theory is that it is not at all clear how it is supposed to work. In particular, while it is clear that he wanted to explain why we get determinate measurement results in the context of his theory, it is unclear how he intended to do this. There have been many attempts to reconstruct Everett's no-collapse theory in order to account for the apparent determinateness of measurement outcomes. These attempts have led to such formulations of quantum mechanics as the many-worlds, many-minds, many-histories, and relative-fact theories. Each of these captures part of what Everett claimed for his theory, but each also encounters problems.

    7. Quantum Mechanics
    A survey of quantum mechanics from the Stanford Encyclopedia of Philosophy.Category Science Physics quantum mechanics......quantum mechanics. quantum mechanics stage. 3. quantum mechanics. Fourbasic principles of quantum mechanics are 3.1 Physical States. Every
    http://plato.stanford.edu/entries/qm/
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    Quantum Mechanics
    Quantum mechanics is, at least at first glance and at least in part, a mathematical machine for predicting the behaviors of microscopic particles or, at least, of the measuring instruments we use to explore those behaviors and in that capacity, it is spectacularly successful: in terms of power and precision, head and shoulders above any theory we have ever had. Mathematically, the theory is well understood; we know what its parts are, how they are put together, and why, in the mechanical sense (i.e., in a sense that can be answered by describing the internal grinding of gear against gear), the whole thing performs the way it does, how the information that gets fed in at one end is converted into what comes out the other. The question of what kind of a world it describes, however, is controversial; there is very little agreement, among physicists and among philosophers, about what the world is like according to quantum mechanics. Minimally interpreted, the theory describes a set of facts about the way the microscopic world impinges on the macroscopic one, how it effects our measuring instruments, described in everyday language or the language of classical mechanics. Disagreement centers on the question of what a microscopic world, which affects our apparatuses in the prescribed manner, is, or even could be, like

    8. Student Understanding Of Quantum Mechanics
    A set of lectures and reports outlining methods of teaching introductory quantum mechanics to a wide range of students.
    http://www.physics.umd.edu/rgroups/ripe/perg/qm/
    University of Maryland Physics Education Research Group
    Student Understanding of Quantum Mechanics
    PERG Info PERG materials PERG HOMEPAGE PER on the web ... Resources on the web
    Student Understanding of Quantum Mechanics
    The University of Maryland Physics Education Research Group is currently involved in two supported projects to study student understanding of quantum mechanics and to build a new course in introductory QM for scientists and engineers.
    Talks

    9. Visual Quantum Mechanics
    quantum mechanics governs the behavior of nature on a fundamental level.
    http://www.kfunigraz.ac.at/imawww/vqm
    Bernd Thaller
    Quantum mechanics - a fundamental theory
    What can I find here?
    Among other things, this web site has information about the following topics. The home page of the book "Visual Quantum Mechanics" , (Springer-Verlag New York, 2000). Information about the book, the software, and some examples. Some movies about quantum mechanics . These are but some examples out of 320 movies coming with the book "Visual Quantum Mechanics". You need QuickTime to view these films. The explanations require some knowledge of quantum mechanics. Picture gallery : Nice mathematical images. Some of them have nothing to do with quantum mechanics - they exist for purely aesthetical reasons. Quantenmechanik-Online : German introduction to quantum mechanics.
    What is "Visual Quantum Mechanics"?
    The award-winning project "Visual Quantum Mechanics" is a systematic exploration of quantum mechanics using computer-generated animations. Its goal is to make complicated phenomena more comprehensible and to provide new clues for the understanding of quantum mechanics on all levels. Modern visualization methods and multimedia techniques provide a new learning experience for beginners and offer new insights to the advanced student or researcher.
    Created:
    Oct 15 1998.Last modified:

    10. Climate Dynamics,Chaos And Quantum Mechanics
    Explains a general systems theory for chaos, quantum mechanics and gravity as applied to weather patterns.
    http://www.geocities.com/CapeCanaveral/Lab/5833/
    MIRROR SITE http://members.tripod.com/~amselvam: A General Systems Theory of Everything from Chaos, Quantum Mechanics and Gravity Applicable to Dynamical Systems of all Space-Time Scales from Subatomic Dynamics of Quantum Systems to Macro-Scale Fluid Flows
    who are the visitors? View Page Stats

    See who's visiting this page. Updated on 12 November 2002
    Visits Sign Guestbook View Guestbook Fractals: The beautiful complex patterns generated by simple iterative computations: Some examples
    A hierarchy of selfsimilar structures: The large scale is a magnified version of the small scale.
    A Theory of Everything for Chaos,Quantum Mechanics and Gravity, Applicable to Macroscale Weather Patterns
    A superstring theory for atmospheric flow dynamics?
    For a brief summary GO TO Universal quantification for self-organized criticality in atmospheric flows
    and
    CHAOS, QUANTUMLIKE MECHANICS AND NON-LOCALITY IN ATMOSPHERIC FLOWS

    For detailed theory GO TO Table of Contents
    A Superstring Theory for Fractal Spacetime,Chaos and Quantumlike Mechanics in Atmospheric Flows
    by A.M.SELVAM and SUVARNA FADNAVIS

    11. "Many-Worlds" Interpretation Of Quantum Mechanics
    Brief description for the lay reader philosophical considerations, and links to more rigorous treatments.Category Society Philosophy Quantum Reality and Locality......The manyworlds interpretation of quantum mechanics a brief description for thelay reader, some philosophical considerations, and links to more rigorous
    http://www.station1.net/DouglasJones/many.htm
    The Many-Worlds Interpretation of Quantum Mechanics - a brief description for the lay reader, some philosophical considerations, and links to more rigorous treatments In 1957, Hugh Everett III proposed a radical new way of dealing with some of the more perplexing aspects of quantum mechanics. It became known as the Many-Worlds Interpretation. According to this interpretation, whenever numerous viable possibilities exist, the world splits into many worlds, one world for each different possibility (in this context, the term "worlds" refers to what most people call "universes"). In each of these worlds, everything is identical, except for that one different choice; from that point on, they develop independently, and no communication is possible between them, so the people living in those worlds (and splitting along with them) may have no idea that this is going on. In this way, the world branches endlessly. What is "the present" to us, lies in the pasts of an uncountably huge number of different futures. Everything that can happen, does, somewhere.

    12. Mark's Quantum Mechanics Applets
    Java applets for interactive simulation and visualization of quantum mechanical processes.
    http://www3.adnc.com/~topquark/quantum/quantumapplets.html
    Mark's Quantum Mechanics Applets
    by Mark Sutherland
    This is a collection of Java applets illustrating quantum mechanical processes. The samples posted here are somewhat restricted in their functionality, but are still very useful for learning or teaching the concepts involved. Fully functional versions are available from the author.
    Hydrogen atom 2d slice
    Hydrogen atom in 3d Heisenberg's Uncertainty Principle Scattering from a 1-D square well ... The infinitely-deep square well

    13. Untitled Document
    Visual quantum mechanics. Interactive Computer Programs Project Summary Physics Education Research Group Get Shockwave Plugin. Shockwave Programs.
    http://phys.educ.ksu.edu/vqm/
    Interactive Computer Programs Project Summary Physics Education Research Group
    Shockwave Programs
    Java Version of Color Creator
    Direct comments to: Chandima Cumaranatunge (programming), Sanjay Rebello (physics)
    Physics Education Research Group
    Kansas State University

    14. Particles, Special Relativity And Quantum Mechanics
    Explains some of the more interesting results and predictions of modern physics.Category Science Physics Education Tutorials......Particles, Special Relativity and quantum mechanics. Relativity andquantum mechanics Contents The Barn and the Pole. Updated 4AUG
    http://atschool.eduweb.co.uk/rmext04/92andwed/pf_quant.html
    Particles, Special Relativity and Quantum Mechanics
    Main Physics Contents page
    Special Relativistic Paradoxes
    Relativity and Quantum Mechanics Contents The Barn and the Pole
    Updated 4-AUG-1992 by SIC
    Original by Robert Firth
    Paradoxes Contents These are the props. You own a barn, 40m long, with automatic doors at either end, that can be opened and closed simultaneously by a switch. You also have a pole, 80m long, which of course won't fit in the barn. Now someone takes the pole and tries to run (at nearly the speed of light) through the barn with the pole horizontal. Special Relativity (SR) says that a moving object is contracted in the direction of motion: this is called the Lorentz Contraction. So, if the pole is set in motion lengthwise, then it will contract in the reference frame of a stationary observer. You are that observer, sitting on the barn roof. You see the pole coming towards you, and it has contracted to a bit less than 40m. So, as the pole passes through the barn, there is an instant when it is completely within the barn. At that instant, you close both doors. Of course, you open them again pretty quickly, but at least momentarily you had the contracted pole shut up in your barn. The runner emerges from the far door unscathed. But consider the problem from the point of view of the runner. She will regard the pole as stationary, and the barn as approaching at high speed. In this reference frame, the pole is still 80m long, and the barn is less than 20 meters long. Surely the runner is in trouble if the doors close while she is inside. The pole is sure to get caught.

    15. Physics Central
    A page on modern physics, such as quantum mechanics and black holes, and some mathematics.
    http://www.geocities.com/mik_malm/
    The NOFRAMES element is to be used to give useful content to people with browsers that cannot display frames. One example is Lynx, a text-based browser.

    16. PHILOSOPHY LINKS
    General + Causality + CP Violation + Interpretation of quantum mechanics + Spacetime Structure + Time
    http://web.mit.edu/afs/athena.mit.edu/user/r/e/redingtn/www/netadv/founds.html
    The Net Advance of Physics: PHILOSOPHY AND FOUNDATIONS OF PHYSICS
    General Causality CP Violation Interpretation of Quantum Mechanics ... Time GENERAL: CAUSALITY: CP VIOLATIONS: INTERPRETATION OF QUANTUM MECHANICS:

    17. The Transactional Interpretation Of Quantum Mechanics
    A comprehensive review of the historical interpretations of quantum mechanics, as well as a new proposalCategory Science Physics quantum mechanics Interpretations......The Transactional Interpretation of quantum mechanics. John G. Cramer. ABSTRACT.The interpretational problems of quantum mechanics are considered.
    http://www.npl.washington.edu/npl/int_rep/tiqm/TI_toc.html
    The Transactional Interpretation
    of Quantum Mechanics
    John G. Cramer
    Department of Physics University of Washington PO Box 351560 Seattle WA 98195-1560 USA This paper was originally published in Reviews of Modern Physics See also "Generalized absorber theory and the Einstein-Podolsky-Rosen paradox", published in Physical Review D "An Overview of the Transactional Interpretation of Quantum Mechanics", published in the International Journal of Theoretical Physics , 227 (1988), and "Velocity Reversal and the Arrow of Time" , published in Foundations of Physics Note: Some browsers seem to fail in printing this paper from the HTML files. Therefore, PostScript versions of these pages are being made available in a separate directory. ABSTRACT P= ], basic elements of the CI.
    Table of Contents

    18. Rami Arieli: "The Laser Adventure"
    A complete course on Lasers and their applications (text, drawings, and Java applets). Explains basic physical principles, with numerical examples, and gives information on actual applications of lasers.
    http://www.phys.ksu.edu/perg/vqm/laserweb/
    The " Laser Adventure " by Rami ARIELI Preface Table of Contents (TOC) Chapter 1: Laser Radiation Interactive JAVA Applets ... Chapter 10: Holography Send us your comments: rami.arieli@weizmann.ac.il This site is constantly under improvements ! A translation of this Web site into Spanish was made by Prof. Alberto Requena Rodriguez, and can be founs at: http://www.um.es/LEQ/laser/index.htm

    19. A Comp.ai.philosophy FAQ
    Overview and FAQ of web resources on Quantum Computing, Artificial Intelligence and Consciousness.
    http://www.dontveter.com/caipfaq/systems.html
    http://www.dontveter.com , commercial use is prohibited. This material cannot be quoted at length or posted elsewhere on the net or included in CD ROM collections. Short quotations are permitted provided proper attribution is given. Algorithms and Hardware Most people interested in AI BELIEVE that a digital computer can do all that people can do if it is programmed correctly. Meaning that there are plenty of arguments over what the correct method of programming will turn out to be. Also meaning that some people doubt digital computers can do the job. Symbol Processing Symbol processing is the original dominant BELIEF of the AI community. Symbol processing requires the use of symbols, structures of symbols and rules. Symbols are defined as unique marks as on a piece of paper. Symbols can be equal or not equal but there are no other relations defined between them. Strictly speaking then, numbers are not allowed because numbers have an ordering to them, one unique number will be greater than or less than some other number. In practice symbol processing programs often incorporate the use of numbers so most "symbol processing" systems go beyond the processing of symbols. Implicitly they are saying that the statement, "symbol processing is necessary and sufficient for general intelligent action" is clearly false. They should go around saying that "symbol processing and numerical computing are necessary and sufficient for general intelligent action". But symbol processing believers go around saying "symbol processing is necessary and sufficient for general intelligent action" anyway.

    20. Copenhagen Interpretation Of Quantum Mechanics
    First interpretation of quantum mechanics due to Nields Bohr; by Jan Faye.
    http://plato.stanford.edu/entries/qm-copenhagen/
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    Copenhagen Interpretation of Quantum Mechanics
    As the theory of the atom, quantum mechanics is perhaps the most successful theory in the history of science. It enables physicists, chemists, and technicians to calculate and predict the outcome of a vast number of experiments and to create new and advanced technology based on the insight into the behavior of atomic objects. But it is also a theory that challenges our imagination. It seems to violate some fundamental principles of classical physics, principles that eventually have become a part of western common sense since the rise of the modern worldview in the Renaissance. So the aim of any metaphysical interpretation of quantum mechanics is to account for these violations. The Copenhagen interpretation was the first general attempt to understand the world of atoms as this is represented by quantum mechanics. The founding father was mainly the Danish physicist Niels Bohr, but also Werner Heisenberg, Max Born and other physicists made important contributions to the overall understanding of the atomic world that is associated with the name of the capital of Denmark. APHK , p.51). The term is rather a label introduced by people opposing Bohr's idea of complementarity, to identify what they saw as the common features behind the Bohr-Heisenberg interpretation as it emerged in the late 1920s. Today the Copenhagen interpretation is mostly regarded as synonymous with indeterminism, Bohr's correspondence principle, Born's statistical interpretation of the wave function, and Bohr's complementarity interpretation of certain atomic phenomena.

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