Pdf lesen Maxwell's Demon 2 Entropy, Classical and Quantum Information, Computing: Entropy, Information, Computing

Beschreibung Maxwell's Demon 2 Entropy, Classical and Quantum Information, Computing: Entropy, Information, Computing

Over 130 years ago, James Clerk Maxwell introduced his hypothetical "demon" as a challenge to the scope of the second law of thermodynamics. Fascination with the demon persisted throughout the development of statistical and quantum physics, information theory, and computer science, and links have been established between Maxwell's demon and each of these disciplines. The demon's seductive quality makes it appealing to physical scientists, engineers, computer scientists, biologists, psychologists, and historians and philosophers of science.Since the publication of Maxwell's Demon: Entropy, Information, Computing in 1990, Maxwell's demon has been the subject of renewed and increased interest by numerous researchers in the fields mentioned above. Updated and expanded, Maxwell's Demon 2: Entropy, Classical and Quantum Information, Computing retains many of the seminal papers that appeared in the first edition, including the original thoughts of James Clerk Maxwell and William Thomson; a historical review by Martin Klein; and key articles by Leo Szilard, Leon Brillouin, Rolf Landauer, and Charles Bennett that led to new branches of research on the demon. This second edition contains newer articles by Landauer, Bennett, and others, related to Landauer's principle; connections with quantum mechanics; algorithmic information; and the thermodynamics and limits of computation. The book also includes two separate bibliographies: an alphabetical listing by author and a chronological bibliography that is annotated by the editors and contains selected quotes from the books and articles listed. The bibliography has more than doubled in size since publication of the first edition and now contains over 570 entries.

Maxwell's Demon 2 Entropy, Classical and Quantum Information, Computing: Entropy, Information, Computing ebooks

Maxwell's demon 2: entropy, classical and quantum ~ Maxwell's Demon 2: Entropy, Classical and Quantum Information, Computing contains two separate bibliographies: an alphabetical listing, by author, and a chronological bibliography that is annotated by the editors and contains selected quotes from the books andarticles listed. The bibliography has more than doubled in size since publication of the first edition and now contains over 570 entries.

Maxwell's Demon 2: Entropy, Classical and Quantum ~ Updated and expanded, Maxwell's Demon 2: Entropy, Classical and Quantum Information, Computing retains many of the seminal papers that appeared in the first edition, including the original thoughts of James Clerk Maxwell and William Thomson; a historical review by Martin Klein; and key articles by Leo Szilard, Leon Brillouin, Rolf Landauer, and Charles Bennett that led to new branches of .

(PDF) Maxwell's Demon 2: Entropy, classical and quantum ~ Maxwell's Demon 2: Entropy, classical and quantum information, computing

Maxwellscher Dämon – Wikipedia ~ Maxwell’s Demon 2: Entropy, Classical and Quantum Information, Computing. Institute of Physics Publishing, Bristol 2003, ISBN 0-7503-0759-5 Weblinks [ Bearbeiten / Quelltext bearbeiten ]

Maxwell's Demon 2 Entropy, Classical and Quantum ~ Maxwell's Demon 2 Entropy, Classical and Quantum Information, Computing: Entropy, Information, Computing / Leff, H. S., Rex, A. F., Leff, Harvey / ISBN: 9780750307598 .

Maxwell's demon - Wikipedia ~ Maxwell's demon is a thought experiment created by the physicist James Clerk Maxwell in 1867 in which he suggested how the second law of thermodynamics might hypothetically be violated. In the thought experiment, a demon controls a small door between two compartments of gas. As individual gas molecules approach the door, the demon quickly opens and shuts the door so that only fast molecules .

Démon de Maxwell — Wikipédia ~ Le démon de Maxwell est une expérience de pensée imaginée par James Clerk Maxwell en 1867 [1], pour suggérer que la seconde loi de la thermodynamique n'est vraie que de manière statistique.Cette loi établit l'irréversibilité de phénomènes de physique statistique et notamment des transferts thermiques, se traduisant par une augmentation continue de l'entropie.

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