...QUANTUM COMPUTER BY QUANTUM MATHEMATICS Research Assistant: Quantum Mathematics Research and Development Private Limited. HaritaBhargava haritabhargava@ymail.com Abstract-. India gives its greatest contribution toward Intellectual property in form of SANHKYA YOGA. We know very new name of INDIA by BHARAT IT gives us necessary clue. BHA = LIGHT + KNOWLEDGERATA = DEVOTED So BHARAT means DEVOTED to LIGHT & KNOWLEDGE. The model for which modern science search is already available in SANKHYA YOGA. Sankhya yoga like INTELLECTUALPROPERTY is unparallel in the world. Sankhya is a philosophical doctrine which counts the categories which constitute this world. Computer science gives it the name “DIGITAL DECADE”. Cosmology presents it in name of “UNCERTANITY PRINCIPLE” IT is being researched in the form of Quantum (wave & particle) in physics department. In future, it will be known as Medical compiler. [R4] Terms and condition : INNOVATION – RESPECT IT Under the WTO provision of TRIPS I. INTRODUCTION Article 8.1 - That agreement is to be put into effect by member countries through implementing laws. The provision of the agreement is addressed to member countries. It does not directly modify the legal sanction of private parties, who cannot claim rights based on the agreement until they are translated into national law. Article 9.2 - The concept of fair use seeks to balance granting authors sufficient incentives to create new works against the interest of the public and future...
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...February 8, 1957 (aged 53) Walter Reed General Hospital Washington, D.C. | Residence | United States | Nationality | Hungarian and American | Fields | Mathematics, physics, statistics, economics | Institutions | University of Berlin Princeton University Institute for Advanced Study Site Y, Los Alamos | Alma mater | University of Pázmány Péter ETH Zürich | Doctoral advisor | Lipót Fejér | Other academic advisors | László Rátz | Doctoral students | Donald B. Gillies Israel Halperin | Other notable students | Paul Halmos Clifford Hugh Dowker Benoit Mandelbrot[1] | Known for | [show] | Notable awards | Bôcher Memorial Prize (1938) Enrico Fermi Award (1956) | Signature | John von Neumann (/vɒn ˈnɔɪmən/; December 28, 1903 – February 8, 1957) was a Hungarian and American pure and applied mathematician, physicist, inventor and polymath. He made major contributions to a number of fields,[2] including mathematics (foundations of mathematics, functional analysis, ergodic theory, geometry, topology, and numerical analysis), physics (quantum mechanics, hydrodynamics, and fluid dynamics), economics (game theory), computing (Von Neumann architecture, linear programming, self-replicating machines, stochastic computing), and statistics.[3] He was a pioneer of the application of operator theory to quantum mechanics, in the development of functional analysis, a principal member of the Manhattan Project and the Institute for Advanced Study in Princeton (as one of...
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...Atheist; Freudian psychoanalysis (Freudianism) | 7 | Galileo Galilei | the New Science | Catholic | 8 | Antoine Laurent Lavoisier | the Revolution in Chemistry | Catholic | 9 | Johannes Kepler | Motion of the Planets | Lutheran | 10 | Nicolaus Copernicus | the Heliocentric Universe | Catholic (priest) | 11 | Michael Faraday | the Classical Field Theory | Sandemanian | 12 | James Clerk Maxwell | the Electromagnetic Field | Presbyterian; Anglican; Baptist | 13 | Claude Bernard | the Founding of Modern Physiology | | 14 | Franz Boas | Modern Anthropology | Jewish | 15 | Werner Heisenberg | Quantum Theory | Lutheran | 16 | Linus Pauling | Twentieth-Century Chemistry | Lutheran | 17 | Rudolf Virchow | the Cell Doctrine | | 18 | Erwin Schrodinger | Wave Mechanics | Catholic | 19 | Ernest Rutherford | the Structure of the Atom | | 20 | Paul Dirac | Quantum Electrodynamics | | 21 | Andreas Vesalius | the New Anatomy | Catholic | 22 | Tycho Brahe | the New Astronomy | Lutheran | 23 | Comte de Buffon | l'Histoire Naturelle | | 24 | Ludwig Boltzmann | Thermodynamics | | 25 | Max Planck | the Quanta | Protestant | 26 | Marie Curie | Radioactivity | Catholic (lapsed) | 27 | William Herschel | the Discovery...
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...can exist: the entirety of space, time, matter, and energy as well as the physical laws and constants that describe them. The term was coined in 1895 by the American philosopher and psychologist William James.[1] The various universes within the multiverse are sometimes called parallel universes. The structure of the multiverse, the nature of each universe within it and the relationship between the various constituent universes, depend on the specific multiverse hypothesis considered. Multiverses have been hypothesized in cosmology, physics, astronomy, religion, philosophy, transpersonal psychology and fiction, particularly in science fiction and fantasy. In these contexts, parallel universes are also called "alternative universes", "quantum universes", "interpenetrating dimensions", "parallel dimensions", "parallel worlds", "alternative realities", "alternative timelines", and "dimensional planes," among others. Tegmark's classification Cosmologist Max Tegmark has provided a taxonomy of universes beyond the familiar observable universe. The levels according to Tegmark's classification are arranged such that subsequent levels can be understood to encompass and expand upon previous levels, and they are briefly described below. Level I: Beyond our cosmological horizon A generic prediction of chaotic inflation is an infinite ergodic universe, which, being infinite, must contain Hubble volumes realizing all initial conditions. Accordingly, an infinite universe will...
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...available to the world is a triumph mainly attributable to breakthroughs such as those given by Tim Berners-Lee with his introduction of the World Wide Web in the early 1990’s, and constant developments in computer science and computational power made possible through advances in microprocessing capabilities which seem to be paralleling closely with forecasts given by Moore’s Law (Greenemeir, 2009). Moore’s Law, which is not exactly a law, is an estimation regarding the progression deemed possible in an integrated circuit. It was postulated by one of the founders of Intel, Dr. Gordon Moore, who stated that the number of transistors placed on a circuit will double roughly every 18 months (Colwell, 2013), and the capacity to follow this trend will end at a critical point when transistors become so close together that the manifestations of quantum mechanics will begin to transpire (Tally, 2012). Classical computers have undoubtedly reshaped our world and have provided incalculable progress unforeseen through the eyes of some of history’s greatest academics. Early computers were mammoth-sized mechanical devices utilized by the military for processing information that would take humans hours by manual calculation alone (Watson, 2012). Computers, in the days prior to digital computers, were actual people who would literally compute information for whatever their task or job may have been. Though these positions were often filled with clever mathematicians, their capacity to compute problems...
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...COPYRIGHT 2003 SCIENTIFIC AMERICAN, INC. Simple Rules for a Complex Quantum World An exciting new fundamental discipline of research combines information science and quantum mechanics By Michael A. Nielsen Updated from the November 2002 issue 25 COPYRIGHT 2003 SCIENTIFIC AMERICAN, INC. Over the past few decades, scientists have learned that simple rules can give rise to very rich behavior. A good example is chess. Imagine you’re an experienced chess player introduced to someone claiming to know the game. You play a few times and realize that although this person knows the rules of chess, he has no idea how to play well. He makes absurd moves, sacrificing his queen for a pawn and losing a rook for no reason at all. He does not truly understand chess: he is ignorant of the high-level principles and heuristics familiar to any knowledgeable player. These principles are collective or emergent properties of chess, features not immediately evident from the rules but arising from interactions among the pieces on the chessboard. Scientists’ current understanding of quantum mechanics is like that of a slowlearning student of chess. We’ve known the rules for more than 70 years, and we have a few clever moves that work in some special situations, but we’re only gradually learning the high-level principles that are needed to play a skillful overall game. The discovery of these principles is the goal of quantum information science, a fundamental field that is opening up in response...
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...fundamental scientific disciplines, the main goal of physics is to understand how the universe behaves.[a][6][7][8] Physics is one of the oldest academic disciplines, perhaps the oldest through its inclusion of astronomy.[9] Over the last two millennia, physics was a part of natural philosophy along with chemistry, biology, and certain branches of mathematics, but during the scientific revolution in the 17th century, the natural sciencesemerged as unique research programs in their own right.[b] Physics intersects with many interdisciplinary areas of research, such as biophysics and quantum chemistry, and the boundaries of physics are not rigidly defined. New ideas in physics often explain the fundamental mechanisms of other sciences[6] while opening new avenues of research in areas such as mathematics and philosophy. Physics also makes significant contributions through advances in new technologies that arise from theoretical breakthroughs. For example, advances in the understanding of electromagnetism or nuclear physics led directly to the development of new products that have dramatically transformed modern-day society, such as television, computers, domestic appliances, and nuclear weapons;[6] advances in thermodynamics led to the development of industrialization, and advances in mechanics inspired the development of calculus. Contents [hide] * 1History * 1.1Ancient astronomy * 1.2Natural philosophy * 1.3Physics in the medieval Islamic world * 1.4Classical...
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...Arturo Alcaraz (Philippines) - Instrumental in a team of scientists, who in 1967 were able to harness steam from a volcano resulting in the production of electricity. Diosdado Banatao (Philippines) - Improved computer performance throughthe development of accelerator chips, helping to make the Internet a reality. Marie Curie (Poland) - Winner of two Nobel Prizes in Chemistry and Physicsfor her studies into Radioactivity and her discoveries of Radium and Polonium. Paul Dirac (England) - An important contributor in the fields of QuantumMechanics and Electro Dynamics, Dirac was co-winner of the Nobel Prize inPhysics (1933). Albert Einstein (Germany) - Arguably needing no introduction, the most famous scientist that lived and a name that has become synonymous in popular culture with the highest intelligence. Enrico Fermi (Italy) - Heavily involved in the development of the world's first nuclear reactor and his work in induced radioactivity saw him awarded with the 1938 Nobel Prize in Physics. Vitaly Ginzburg (Russia) - One of three recipients of the 2003 Nobel inPhysics for their pioneering work in the theory of superconductors and superfluids. Christiaan Huygens (Netherlands) - Most well known for his wave theory of light, Huygens is credited with discovering the first of Saturn's moons. Werner Israel (Canada) - In 1990 Israel co-pioneered a study on black hole interiors. Ali Javan (Iran) - Born in Tehran, Ali Javan is listed as one of the top 100 living...
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...construct of observation. The properties of certain immutable cosmic laws of the universe, physics and even mentality intertwine to depict a reality of literal imagination. The purpose of this thesis is to prove this very cogitation; the universe is most likely intangible and thus holographic by nature. Since, as human beings, our experience is totally confined to perception and it’s interpretation and due to many anomalous events and devices within the physical world; there lies credence in this theory. Anomalous objects such as black holes and their “informational paradox”, dark matter, atomic structure and even the manner of which the brain works all play a crucial role in supporting this outrageous, yet sensible idea. Keywords: quantum physics, reality, gravity, observation, perception Page 2 Information; the basis of the 21st century and the driving force behind mankind’s monumental bounds forward in technology. We presently live in an age where information can be shared seamlessly and instantly between areas that are very distant. The World Wide Web can serve as a crude hyperbole of the universe as a whole; the power of the internet and its...
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...g Easier! Making Everythin ™ heory tring T S Learn: • The basic concepts of this controversial theory • How string theory builds on physics concepts • The different viewpoints in the field • String theory’s physical implications Andrew Zimmerman Jones Physics Guide, About.com with Daniel Robbins, PhD in Physics Get More and Do More at Dummies.com® Start with FREE Cheat Sheets Cheat Sheets include • Checklists • Charts • Common Instructions • And Other Good Stuff! To access the Cheat Sheet created specifically for this book, go to www.dummies.com/cheatsheet/stringtheory Get Smart at Dummies.com Dummies.com makes your life easier with 1,000s of answers on everything from removing wallpaper to using the latest version of Windows. Check out our • Videos • Illustrated Articles • Step-by-Step Instructions Plus, each month you can win valuable prizes by entering our Dummies.com sweepstakes. * Want a weekly dose of Dummies? Sign up for Newsletters on • Digital Photography • Microsoft Windows & Office • Personal Finance & Investing • Health & Wellness • Computing, iPods & Cell Phones • eBay • Internet • Food, Home & Garden Find out “HOW” at Dummies.com *Sweepstakes not currently available in all countries; visit Dummies.com for official rules. String Theory FOR DUMmIES ‰ by Andrew Zimmerman Jones with Daniel Robbins, PhD in Physics String Theory For Dummies® Published by Wiley Publishing, Inc. 111 River St. Hoboken, NJ 07030-5774 www...
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...Abstract Nanotechnology has become major emerging technologies by creating a wide impact to the today’s society. It has created the world in to a different place with the innovations which are introduced. Today nanotechnology has become one of the dominating sector in many industries such as medicine, food, agriculture, ICT etc. When comparing with other industries nanotechnology plays a major role in ICT industry. This paper is an attempt to explore an overview of nanotechnology, the importance of this technology, how nanotechnology has made an impact to the IT and communication industries, its application areas and how the computers and other electronic devices improved their performance. I. INTRODUCTION There are many industrial revolutions...
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...they were discovered, it was thought that everything revolved around the earth); albeit all of these stars and planets were discovered before Galileo’s telescope. The tool still helped gain better calculations of the stars, which helped Galileo support Nicolaus Copernicus’ heliocentric (sun-centered) solar system as opposed to the geocentric (earth-centered) solar system that people in those times believed. With Isaac Newton, one of the most famous physicists, discovering most of laws of motion through his studies in astronomy, Philosophiae Naturalis Principia Mathematica, one of the greatest works in the Scientific Revolution, was born. From Newtonian physics, theories of fluid mechanics, electricity and magnetism, and most importantly, quantum mechanics. Further along the line of the history of telescopes, humans eventually needed to see deeper into space. This was revolutionary because now mankind wasn’t just looking up into the constellations and the movement of the sun and the moon, now they were actually...
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...The Grand Design ALSO BY STEPHEN HAWKING A Brief History of Time A Briefer History of Time Black Holes and Baby Universes and Other Essays The Illustrated A Brief History of Time The Universe in a Nutshell FOR CHILDREN George’s Secret Key to the Universe (with Lucy Hawking) George’s Cosmic Treasure Hunt (with Lucy Hawking) ALSO BY LEONARD MLODINOW A Briefer History of Time The Drunkard’s Walk: How Randomness Rules Our Lives Euclid’s Window: The Story of Geometry from Parallel Lines to Hyperspace Feynman’s Rainbow: A Search for Beauty in Physics and in Life FOR CHILDREN The Last Dinosaur (with Matt Costello) Titanic Cat (with Matt Costello) The Grand Design The Grand Design The Grand Design The Grand Design Copyright © 2010 by Stephen W. Hawking and Leonard Mlodinow Original art copyright © 2010 by Peter Bollinger All rights reserved. Published in the United States by Bantam Books, an imprint of The Random House Publishing Group, a division of Random House, Inc., New York. Cartoons by Sidney Harris, copyright © Sciencecartoonsplus.com BANTAM BOOKS and the rooster colophon are registered trademarks of Random House, Inc. eISBN: 978-0-553-90707-0 www.bantamdell.com v3.0 The Grand Design The Grand Design The Grand Design The Grand Design E EACH EXIST FOR BUT A SHORT TIME, and in that time explore but a small part of the whole universe. But humans are a curious species. We wonder, we seek answers. Living in this vast world that...
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...Hawking contra Philosophy Christopher Norris presents a case for the defence. Stephen Hawking recently fluttered the academic dovecotes by writing in his new book The Grand Design – and repeating to an eager company of interviewers and journalists – that philosophy as practised nowadays is a waste of time and philosophers a waste of space. More precisely, he wrote that philosophy is ‘dead’ since it hasn’t kept up with the latest developments in science, especially theoretical physics. In earlier times – Hawking conceded – philosophers not only tried to keep up but sometimes made significant scientific contributions of their own. However they were now, in so far as they had any influence at all, just an obstacle to progress through their endless going-on about the same old issues of truth, knowledge, the problem of induction, and so forth. Had philosophers just paid a bit more attention to the scientific literature they would have gathered that these were no longer live issues for anyone remotely au fait with the latest thinking. Then their options would be either to shut up shop and cease the charade called ‘philosophy of science’ or else to carry on and invite further ridicule for their head-in-the-sand attitude. Predictably enough the journalists went off to find themselves media-friendly philosophers – not hard to do nowadays – who would argue the contrary case in a suitably vigorous way. On the whole the responses, or those that I came across, seemed overly anxious to strike...
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...vA Very Brief History of Computer Science Written by Jeffrey Shallit for CS 134 at the University of Waterloo in the summer of 1995. This little web page was hastily stitched together in a few days. Perhaps eventually I will get around to doing a really good job. Suggestions are always welcome. A translation of this web page into French has been prepared by Anne Dicky at the University of Bordeaux. Before 1900 People have been using mechanical devices to aid calculation for thousands of years. For example, the abacus probably existed in Babylonia (present-day Iraq) about 3000 B.C.E. The ancient Greeks developed some very sophisticated analog computers. In 1901, an ancient Greek shipwreck was discovered off the island of Antikythera. Inside was a salt-encrusted device (now called the Antikythera mechanism) that consisted of rusted metal gears and pointers. When this c. 80 B.C.E. device was reconstructed, it produced a mechanism for predicting the motions of the stars and planets. (More Antikythera info here.) John Napier (1550-1617), the Scottish inventor of logarithms, invented Napier's rods (sometimes called "Napier's bones") c. 1610 to simplify the task of multiplication. In 1641 the French mathematician and philosopher Blaise Pascal (1623-1662) built a mechanical adding machine. Similar work was done by Gottfried Wilhelm Leibniz (1646-1716). Leibniz also advocated use of the binary system for doing calculations. Recently it was discovered that Wilhelm Schickard (1592-1635)...
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