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Edité par Pion Limited, London, 1978
ISBN 10 : 0850860504ISBN 13 : 9780850860504
Livre
Hardcover. Etat : Good. No Jacket. C5 - A 3rd revised enlarged edition reprint hardcover book in good condition that has some bumped corners and cover edgewear, cocked and lightly bowed, light reading wear, previous owner's bookplate adhered on the front fixed endpaper, light tanning and shelf wear with no dust jacket. 9.5"x6.5", 465 pages. Satisfaction Guaranteed. Size: 8vo - over 7¾" - 9¾" tall.
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Trouvez également Edition originale
Edité par academic press, 1964
Vendeur : FOLCHATT, Chattanooga, TN, Etats-Unis
Etat : Interior is excellent. Etat de la jaquette : taped to book.
Edité par Addison-Wesley Pub. Co, New York, 1961
Vendeur : Alien Bindings, BALTIMORE, MD, Etats-Unis
Edition originale
Hardcover. Etat : Very Good. No Jacket. First Edition. The edges are lightly rubbed. The binding is tight. The pages are clean and unmarked. Electronic delivery tracking will be issued free of charge. Description : A comprehensive collection of problems of varying degrees of difficulty in nonrelativistic quantum mechanics, with answers and completely worked-out solutions. Among the topics: one-dimensional motion, transmission through a potential barrier, commutation relations, angular momentum and spin, and motion of a particle in a magnetic field. An ideal adjunct to any textbook in quantum mechanics, useful in courses in atomic and nuclear physics, mathematical methods in physics, quantum statistics and applied differential equations. 1961 edition.
Edité par Academic Press, 1964
Vendeur : BookDepart, Shepherdstown, WV, Etats-Unis
Hardcover. Etat : UsedGood. Hardcover, revised and augmented second edition of Gol'dman, Krivchenkov, Kogan, and Galitskii, "Problems in Quantum Mechanics"; fading and edge wear to exterior; bump to top edge; otherwise in good condition with clean text, firm binding.
Edité par Oliver and Boyd, Edinburgh & London:, 1962
Vendeur : About Books, Henderson, NV, Etats-Unis
Edition originale
Hardcover. Etat : Very Good EX-LIBRARY. Etat de la jaquette : No jacket. First Edition. Edinburgh & London:: Oliver and Boyd, 1962. A solid copy. Square and reasonably tight. Inner hinges are perfect. Bound in the original blue cloth. Spine color has sun-faded a shade, but gold lettering remains shiny. WITHDRAWN stamp, and a few other library markings. Text pages are clean and crisp. No underlining. No highlighting. No margin notes. Includes papers on: Statistical mechanics. Ferromagnetism. Paramagnetic relaxation. Space and time correlations in crystals. Photon fluctuations. Neutron scattering. Spin-lattice relaxation. Nuclear magnetic resonance technique. Irreversible thermodynamics. Illustrated with figures/diagrams. Tables. Graphs. Bibliographical references. Index. . First Edition. Hard Cover. Very Good EX-LIBRARY./No jacket. 8vo. viii, 320pp.
Edité par Pergamon Press, 1964
Vendeur : Zubal-Books, Since 1961, Cleveland, OH, Etats-Unis
Etat : Good. Pergamon Press printing; xvi, 503 pp., hardcover, ex library, else text clean & binding tight. - If you are reading this, this item is actually (physically) in our stock and ready for shipment once ordered. We are not bookjackers. Buyer is responsible for any additional duties, taxes, or fees required by recipient's country.
Edité par Academic Press, New York City Ny, 1963
Vendeur : Arroyo Seco Books, Pasadena, Member IOBA, Pasadena, CA, Etats-Unis
Membre d'association : IOBA
Livre Edition originale
Hardcover. Etat : Fine. Etat de la jaquette : Very Good + Dust Jacket. 1st Edition. Xiii, 176 Pp.Brown Cloth, Gilt. First Printing. Fine In Lightly Worn Dust Jacket. No Marks.
Edité par Info L, 1964
Vendeur : BooXX in Stock, Dekalb, IL, Etats-Unis
Livre
Hardcover. Etat : Fair. 2nd Edition. with ARGONNE x library markings; 402 pages appearing very clean, no marks; 1966; I ship globally and daily at 0900 CT IL USA; NO ISBN in 1964; copied from title page, fyi: Revised and Augmented Second Edition of Gol'dman, Krivchenkov, Kogan and Galitskii, Problems in Quantum Mechanics; problems for your exams and quizzes (HA! - they take 3 weeks to solve)!.
Edité par Academic Press, 1964
Vendeur : T. A. Borden Books, Olney, MD, Etats-Unis
Hardcover. Etat : Fine. Etat de la jaquette : Near Fine. 9.1 X 6.0 X 1.2 inches; 0 pages.
Edité par American Physical Society / American Institute Of Physics, 1950
Vendeur : Arroyo Seco Books, Pasadena, Member IOBA, Pasadena, CA, Etats-Unis
Membre d'association : IOBA
Livre Edition originale
Hardcover. Etat : Near Fine. 1st Edition. 422 Pp. Annual Volume 1950, Bound With Green Morocco Spine And Tips, No Wrapers. Patterned Boards, Speckled Edges, Gilt Title On Spine. Near Fine, No Wear, Immaculate, Gilt Brilliant, "Hauptbucherel" Stamp And Circular Ownership Stamp In Ludwigshafen On Title Page, Vertical Crease On Title Page, Else Fine. Chien-Shiung Wu (Chinese: ???; 1912 ? 1997) Was A Chinese-American Particle And Experimental Physicist Who Made Significant Contributions In The Field Of Nuclear And Particle Physics. Wu Worked On The Manhattan Project, Where She Helped Develop The Process For Separating Uranium Into Uranium-235 And Uranium-238 Isotopes By Gaseous Diffusion. She Is Best Known For Conducting The Wu Experiment, Which Proved That Parity Is Not Conserved. This Discovery Resulted In Her Colleagues Tsung-Dao Lee And Chen-Ning Yang Winning The 1957 Nobel Prize In Physics, While Wu Herself Was Awarded The Inaugural Wolf Prize In Physics In 1978. Her Expertise In Experimental Physics Evoked Comparisons To Marie Curie. Her Nicknames Include The "First Lady Of Physics", The "Chinese Madame Curie" And The "Queen Of Nuclear Research". In September 1944, Wu Was Contacted By The Manhattan District Engineer, Colonel Kenneth Nichols. Wu Was Frustrated With Her Lack Of Professorships And Volunteered To Help Out In The Project. The Newly Commissioned B Reactor, The First Practical Nuclear Reactor Ever Built, Which Was Located At The Hanford Site Had Run Into An Unexpected Problem, Starting Up And Shutting Down At Regular Intervals. John Archibald Wheeler And Partner Enrico Fermi Suspected That A Fission Product, Xe-135, With A Half-Life Of 9.4 Hours, Was The Culprit, And Might Be A Neutron Poison Or Absorber. Segrè Then Remembered The 1940 Phd Thesis That Wu Had Done For Him At Berkeley On The Radioactive Isotopes Of Xe And Told Fermi To "Ask Ms. Wu". After Fermi Contacted Wu, Segrè Visited Her Dorm Room Together With Nichols And Collected The Typewritten Draft Prepared For The Physical Review. The Suspicions Of Fermi And Wheeler Came True, Wu's Paper Unknowingly Verified That Xe-135 Was Indeed The Culprit For The B Reactor; It Turned Out To Have An Unexpectedly Large Neutron Absorption Cross-Section. Wu Also Used Her Findings In Radioactive Uranium Separation To Build The Standard Model For Producing Enriched Uranium To Fuel The Atomic Bombs At The Oak Ridge, Tennessee Facility As Well As Build Innovative Geiger Counters. Wu, Like Most Involved Physicists In Their Later Years Distanced Herself From The Manhattan Project Due To Its Destructive Outcome And Recommended To The Taiwanese President Chiang Kai-Shek In 1962 To Never Build Nuclear Weapons. In November 1949, Wu Experimented With The Conclusions Of Einstein's Epr Thought Experiment, Which Called Quantum Entanglement "Spooky Action At A Distance". Wu Managed To Be The First To Establish The Phenomenon And Validity Of Entanglement Using Photons Through Observing Angular Correlation. Specifically, The Experiment Carried Out By Wu Was The First Important Confirmation Of Quantum Results Relevant To A Pair Of Entangled Photons As Applicable To The Einstein-Podolsky-Rosen (Epr) Paradox. In Her Post-War Research, Wu Continued To Investigate Beta Decay. In 1949, Wu Completely Established Fermi's Theory And Showed How Beta Decay Worked, Especially In Creating Electrons, Neutrinos, And Positrons.At Columbia, Wu Knew The Chinese-Born Theoretical Physicist Tsung-Dao Lee Personally. In The Mid-1950S, Lee And Another Chinese Theoretical Physicist, Chen Ning Yang, Grew To Question A Hypothetical Law Of Elementary Particle Physics, The "Law Of Conservation Of Parity". The Discovery Of Parity Violation Was A Major Contribution To Particle Physics And The Development Of The Standard Model. The Discovery Actually Set The Stage For The Development Of The Model, As The Model Relied On The Idea Of Symmetry Of Particles And Forces And How Particles Can Sometimes Break That Symmetry. (See The Much Longer Wikipedia Article).