101. Quick Find Use Keywords To Find The Product You Are Looking For Process Physics From Information Theory to Quantum Space and Matter Krivsky, Ukranian National Academy of Sciences); quantum physics of the Cold Fusion http://www.novapublishers.com/catalog/product_info.php?products_id=1633

102. What Are Parallel Universes? Recent discoveries in quantum physics and in cosmology shed new light on how mind interacts with matter. http://www.manyuniverses.com

What are Parallel Universes? Recent discoveries in quantum physics (the study of the physics of sub-atomic particles) and in cosmology (the branch of astronomy and astrophysics that deals with the universe taken as a whole) shed new light on how mind interacts with matter. These discoveries compel acceptance of the idea that there is far more than just one universe and that we constantly interact with many of these “hidden” universes. What is needed is a resource that explains in understandable, non-mathematical terms everything from the big bang hypothesis to morphogenetic fields to Bell's Theorem to the Aspect experiment. Such a resource now exists. Click here to continue

103. Quantum Physics Centennial Symposium Home Page http://physics.usask.ca/~steele/quantum/

104. B'or Ha'Torah - Jewish English-language Journal For scientists, artists, teachers, philosophers, and students. Judaism and science, evolution, Bible codes, Jewish medical ethics, the Jewish woman and modern life, quantum physics and Jewish Philosophy. http://www.borhatorah.org

Search B'Or HaTorah A journal for the wondering Jew, B’OR HA’TORAH examines science, art, and modern life through the microscope and telescope of the scientist; the algorithm of the mathematician; the discourse of the philosopher; the imagery of the artist, poet, and photographer; and the tested faith and learning of the Torah-observant Jew. Its editor-in-chief is Professor Herman Branover , and it is peer-reviewed by distinguished Orthodox rabbis and academic scholars and researchers. The Miami Torah and Science Conferences Together with Rabbi Sholom Lipskar of The Shul of Bal Harbour and Professor Nathan Katz of the FIU Center for the Study of Spirituality, B’OR HA’TORAH organizes an international Torah and science conference at Florida International University once every two years. The conference proceedings are published in B’OR HA’TORAH New volume! B'OR HA'TORAH 15E Click here for the program of the Sixth Miami International Conference on Torah and Science, 13-15 December 2005 Click here for the press release about the Sixth Miami International Conference on Torah and Science, 13-15 December 2005

105. B. Catania's Work On Quantum Physics Vs. Information Theory Basilio Catania s work (papers lectures) on quantum physics, Information Theory, Cosmology and Bible vs. Modern Science is presented. http://www.esanet.it/chez_basilio/physics.htm

Basilio Catania's Work on Physics, Information Theory, Cosmology and Bible vs. Modern Science Foreword My interest in these areas of research came from my engagement in the telecommunication area, which latter has always been my primary area of investigation. My first insight into said subjects occurred between 1979 and 1981, when I gave a series of lectures titled "Man and Communication" or "Man and Compunication," this latter derived from the progressive integration of computers into telecommunication systems. It was suggested to me by the many forms of communications (visual, aural, tactile, etc.) and the increasing capability of machines to exploit the sensing, actuating and processing capabilities of human beings. From about 1985 onward, I extended my knowledge on the above subjects by studying the early forms of communications between human beings, the structure of language and numbers, of human sensors (brain, ear, eye etc.), human actuators (muscles, neurons, synapses, etc.) and human DNA. I also refreshed my knowledge of information theory, with particular regard to the nature of information. The pace towards the origins of mankind and, shortly after, to the origin of the universe (Cosmology) was short. In addition, I could not avoid comparing the scientific theories of Cosmology with the teachings of the Bible (Genesis). Thus, I gave a series of lectures at the

106. Grains Of Mystery A primer for the nonprofessional interested in learning about the principles of quantum physics without all the math. http://www.symonds.net/~deep/stuff/qp/

107. An Interdisciplinary Journal Of Neuroscience And Quantum Physics A refereed, electronic, open access, interdisciplinary journal of neuroscience and quantum physics. Also brings perspectives from philosophy, psychology, and artificial intelligence to bear on the problems of consciousness and mind. http://www.neuroquantology.com

An Interdisciplinary Journal of Neuroscience and Quantum Physics NQ e stablished 2002 The most realistic guidance is the science and technique for the materialistic and metaphysical affairs, success, life, and for everything in the world. Seeking for another guidance other than science and technique is the ignorance and deviation from the reality ATATÜRK Founder of the Turkish Republic ISSN 1303-5150 Welcome to the NeuroQuantology a new journal designed to bring to you a critical analysis of the best of the world neuroscience and quantum physics literature, written by neuroscientist and physicist NeuroQuantology is a n electronic journal dedicated to supporting the interdisciplinary exploration of the nature of quantum physics and its relation to the nervous system. Big Questions? What is c onsciousness Why is it present at all? Why is it so different from the objective aspect of reality? Why is it personal or subjective? Can it be "reduced" to matter? Can any purely physical acount axplain it?

108. Physics Central A page on modern physics, such as quantum mechanics and black holes, and some mathematics. http://www.physlib.com/

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. Website map Hosting provided by: optics Astronomy optics Electronics ... Dedicated servers All material is available under the terms of the GNU Free Documentation License

109. Welcome To Prof. Dr. Rati Ram Sharma's Web Site Site rectifies errors of Relativity,quantum theory,Uncertainty Principle,theories of Quarks,Expanding Universe,Darwin theory.Opposes existence of Higgs Boson,weak charge.Gives scientific bases of Homeopathy,spirituality. http://www.geocities.com/drratiram_sharma/index.html

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110. A Prelude To The Study Of Physics A paper first published in quantum Vol 7 No 2, pg. 45, Nov/Dec 1996. http://www.winbeam.com/~trebor/prelude.html

A Prelude to the Study of Physics Author: Robert J. Sciamanda , Edinboro University of Pennsylvania trebor@winbeam.com This paper was first published in QUANTUM Vol 7 No 2, pg 45, Nov/Dec 1996 I. THEORIES AND MODELS No physicist or engineer ever solves a real problem. Instead she creates a model of the real problem and solves this model problem. This model must satisfy two requirements: it must be simple enough to be solvable, and it must be realistic enough to be useful; ie., it must be both conceptually understandable and empirically fruitful. The theories and "laws" of physics are also models. Whether in the solving of a particular engineering problem or in the search for the wide ranging laws of physics, the art of scientific analysis consists in the creation of useful models of reality. The model is the interface between reality and the human mind. As such, the model must be expressed in human terms; it is cast in terms of concepts which we create from the data of our experience. Our models speak as much about us, our experience and our modes of thought as they do about the external reality being modeled. I prefer to speak of models where others might speak of theories because the word "model" emphasizes the criterion of usefulness. We tend to think of a theory as a candidate for some absolute, objective truth; a model is used to convey useful information without the pretense of being unique, complete or ultimate. As an example of the conception, gestation, birth and growth of a model in physics let us consider the history of the "ideal gas law" (PV=RT), which you undoubtedly have studied in your chemistry classes.

111. Physics For Professionals Bulletin board for problems, research and solutions in superfluidity, superconductivity, quantum vortex dynamics, pulsar rotation, evaporation, statistical physics. http://www.physics4u.com/

yuriykrasnov@yahoo.com PHYSICS FOR PROFESSIONALS superfluidity, superconductivity, quantum vortex dynamics, physics of rotons, pulsars rotation, theory of evaporation, statistical physics, theory of relativity and much more Web Site of Yuriy K. Krasnov * Problems * Research * Solutions * Thoughts * X-change * Reminiscences * Hot suggestion Site statistics s Dynamics of Quantum Vortices ... To www.minescience.com Physical Mathematics "... in Cantors experiment it was made two not the one , assumptions, " " Cantor did not analyzed that second possibility, he preferred to attribute the Nature with property to obey mathematics with uncountable set of real numbers. " "... actually in 1905, after famous work of Einstein " On the electrodynamics of the moving media " in Science was invented the new law of addition of numbers ... but nobody paid attention to that revolutionary side of Einstein's discovery, ... even author itself. "

112. Volodymyr Krasnoholovets's Home Page Professor at the National Academy of Science, Kyiv. Contains description research in conventional, applied and fundamental physics. Also deals with the submicroscopic construction of nature, quantum mechanics is combined with gravity. http://www.inerton.kiev.ua/

113. [gr-qc/0204061] Quantum Cosmology And Eternal Inflation A lecture from The Future of Theoretical physics and Cosmology series in honor of Stephen Hawking. http://arxiv.org/abs/gr-qc/0204061

General Relativity and Quantum Cosmology, abstract gr-qc/0204061 From: Alexander Vilenkin [ view email ] Date: Thu, 18 Apr 2002 21:13:48 GMT (20kb) Quantum cosmology and eternal inflation Authors: Alexander Vilenkin Categories: gr-qc Comments: To appear in "The Future of Theoretical Physics and Cosmology", proceedings of the conference in honor of Stephen Hawking's 60'th birthday This contribution consists of two parts. In the first part, I review the tunneling approach to quantum cosmology and comment on the alternative approaches. In the second part, I discuss the relation between quantum cosmology and eternal inflation. In particular, I discuss whether or not we need quantum cosmology in the light of eternal inflation, and whether or not quantum cosmology makes any testable predictions. Full-text: PostScript PDF , or Other formats References and citations for this submission: SLAC-SPIRES HEP (refers to , cited by , arXiv reformatted); CiteBase (autonomous citation navigation and analysis) Which authors of this paper are endorsers? Links to: arXiv gr-qc find abs

114. Philosophical Foundations Of Physics Positivist view of physics, which had influenced the Copenhagen Interpretation of the quantum mechanics (CI). http://www.marxists.org/reference/subject/philosophy/works/ge/carnap.htm

Rudolph Carnap (1966) Philosophical Foundations of Physics Chapter 23: Theories and Nonobservables Source Philosophical Foundations of Physics (1966) publ. Basic Books Inc. Chapters 23 to 26 reproduced here. ONE OF THE most important distinctions between two types of laws in science is the distinction between what may be called (there is no generally accepted terminology for them) empirical laws and theoretical laws. Empirical laws are laws that can be confirmed directly by empirical observations. The term "observable" is often used for any phenomenon that can be directly observed, so it can be said that empirical laws are laws about observable. A philosopher might object that the intensity of an electric current is not really observed. Only a pointer position was observed. An ammeter was attached to the circuit and it was noted that the pointer pointed to a mark labelled 5.3. Certainly the current's intensity was not observed. It was inferred from what was observed. The physicist would reply that this was true enough, but the inference was not very complicated. The procedure of measurement is so simple, so well established, that it could not be doubted that the ammeter would give an accurate measurement of current intensity. Therefore, it is included among what are called observables. Empirical laws, in my terminology, are laws containing terms either directly observable by the senses or measurable by relatively simple techniques. Sometimes such laws are called empirical generalisations, as a reminder that they have been obtained by generalising results found by observations and measurements. They include not only simple qualitative laws (such as, "All ravens are black") but also quantitative laws that arise from simple measurements. The laws relating pressure, volume, and temperature of gases are of this type. Ohm's law, connecting the electric potential difference, resistance, and intensity of current, is another familiar example. The scientist makes repeated measurements, finds certain regularities, and expresses them in a law. These are the empirical laws. As indicated in earlier chapters, they are used for explaining observed facts and for predicting future observable events.

115. Yuriy Pershin Postdoc at the NSF Center for quantum Device Technology, Clarkson University, working in the field of spintronics and condensed matter physics. http://www.clarkson.edu/~pershyn/

Yuriy Pershin Present position: Research Associate Department of Physics and Astronomy Michigan State University 4263 Biomedical and Physical Sciences Building East Lansing MI 48824-2320 USA Tel: +1 517 355 9200 ext. 2342 Email: pershin@pa.msu.edu Web: http://www.pa.msu.edu/~pershin/

116. Untitled Document An international scientific journal publishing fundamental and applied papers and short notes. Table of contents and author index to all volumes online. http://isp.kiev.ua/library/journal/

We have new site !!!! To visite new site click HERE

117. GEOMETRY AND PHYSICS OF BRANES The SIGRAV Graduate School in Contemporary Relativity and Gravitational physics is held annually at the Centre for Scientific Culture Alessandro Volta , Villa Olmo, Como. It is primarily addressed to PhD students and young researchers in physics and Mathematics who are interested in general relativity, astrophysics, experimental gravity and the quantum theories of gravitation. http://www.sissa.it/~bruzzo/sagp2001/sagp2001.html

4th SIGRAV GRADUATE SCHOOL ON CONTEMPORARY RELATIVITY AND GRAVITATIONAL PHYSICS and 2001 SCHOOL ON ALGEBRAIC GEOMETRY AND PHYSICS (SAGP2001) VILLA OLMO (COMO), 7-11 MAY 2001 GEOMETRY AND PHYSICS OF BRANES Supported by: SIGRAV (Italian Society for Gravitational Physics), National Research Project "Singularities, Integrability, Symmetries", SISSA (Trieste), University of Insubria (Como-Varese), Departmente of Chemistry, Physics and Mathematics of the University of Insubria at Como, Physics Department of the University of Milan, Physics Department of the University of Turin, Physics Department of the University of Rome "La Sapienza", Physics Department of the University of Rome "Tor Vergata", Physics Department of the University of Pavia. Download the first circular (Latex file) See the programme (PDF) The SIGRAV Graduate School in Contemporary Relativity and Gravitational Physics is held annually at the Centre for Scientific Culture "Alessandro Volta", Villa Olmo, Como. It is primarily addressed to PhD students and young researchers in Physics and Mathematics who are interested in general relativity, astrophysics, experimental gravity and the quantum theories of gravitation. In 2001 the School will be a joint venture with the School on Algebraic Geometry and Physics organized by the Mathematical Physics Group of the International School for Advanced Studies (SISSA) in Trieste. The School on Algebraic Geometry and Physics is part of a series of events that SISSA is organizing since 1996 aiming at fostering the interaction between mathematicians working in pure algebraic geometry and researchers who are interested in applications of algebraic geometry to physics, especially string theory and integrable systems. Information on the "Algebraic Geometry and Physics'' series is available from the web page

118. GAP-Optique Université De Genève Research and Development center for quantum Optics at the Group of Applied physics (GAP), University of Geneva. Projects, prototypes, publications, members. http://www.gapoptique.unige.ch/

GAP-Optique Department of Physics University of Geneva Switzerland ... Jobs Introduction P hysics is fascinating because of the intellectual excitement it provides and because of the applications it offers. In the Group of Applied Physics (GAP) at Geneva University we get our inspiration from both of these motivations. Optics, in this respect, has a privileged place. Indeed, in modern optics, experiments and theory progress hand-in-hand, and practical applications are close behind. Consequently, we can work both on conceptual issues and on applications. Moreover, it is a very good time for optics! The fascinating new insight about quantum mechanics brought about by recent quantum optics experiments on one side, and the tremendous development of optical communications on the other, illustrates our privileged position! T he American Research Council has recently declared optics as the technology of the 21st century. In contrast, a famous physicist, Michael Berry, has declared that the 21st century will be shaped by quantum physics, in a way similar to electrodynamics, which shaped the 20th century. Our position in GAP-Optique, at the crossroads between optics and quantum physics, ensures our participation to both challenges. Prof. Nicolas Gisin

119. Quantum Computing And Shor's Algorithm An introduction to quantum algorithms by Matthew Hayward for those new to the field and who do not have an extensive physics background. http://alumni.imsa.edu/~matth/quant/299/paper/

Next: Contents Contents Quantum Computing and Shor's Algorithm Matthew Hayward Contents Preface Introduction The Classical Computer ... About this document ... Matthew Hayward 2005-02-17

120. European Research Network: The Physics Of Quantum Information European Research Network research teams and papers. http://info.uibk.ac.at/c/c7/c704/qinet/

The Physics of Quantum Information European Research Network Introduction Teams in the network Research objectives Links ... Midterm Report Introduction The recent years have seen the emergence of a new field of research dealing with information at the quantum level. Quantum physics is so radically different from classical physics that a slight modification of the present knowledge of transmitting and processing information is not justified. Rather, the radically new principles in the quantum field open up completely new schemes of information transfer and processing, thus enabling new forms of communication and enhanced computational power. The Physics of Quantum Information is a proposed European network within the TMR program of the European Commission. It will bring together for the first time all relevant European activities in the field of the physics of quantum information and to guarantee, through the training of young researchers, that European expertise is disseminated broadly among the next generation of scientists. [Back to index] Research teams in the network Experimentalphysik, U. Wien, AT

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