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Published by Stuttgart: Ernst Battenberg, 1962
Seller: Antiquariat Smock, Freiburg, Germany
Book
Broschierte Ausgabe. 135 S. (24 cm) 1. Aufl. in dieser Ausgabe; Außen gealtert, gebräunt und fleckig; kleiner Besitzvermerk auf Schutztitelblatt, bis Seite 12 Bleistift-Anstreichungen; sonst gut erhalten und als Arbeits-/Leseexemplar völlig in Ordnung. // Seltene Ausgabe! Sprache: Deutsch Gewicht in Gramm: 400.
Published by Driediger, 2010
ISBN 10: 3932130243ISBN 13: 9783932130243
Seller: moluna, Greven, Germany
Book
Condition: New. Die Erkenntnisse der Quantenphysiker im 20. Jahrhundert haben unsere Weltsicht revolutioniert. Ploetzlich schien das Unmoegliche machbar. Erst nach und nach wird uns bewusst, wie stark diese Erkenntnisse das Weltbild veraendern, nach dem wir unser Leben ausric.
Published by Stuttgart: Battenberg 1962., 1962
Seller: Antiquariat Bergische Bücherstube Mewes, Overath, Germany
135 S. Br. *sehr gutes Expl.*.
Published by Stuttgart, Battenberg,, 1962
Seller: Antiquariat hinter der Stadtmauer, Hann. Münden, Germany
Book
Softcover/Paperback. Condition: Gut. 135 S., 24x17 cm OBroschur, kart. Aufsatzsammlung. Einbandkanten leicht berieben, Einband leicht randgebräunt, ganz leicht unfrisch; Besitzereintrag auf Vortitel; innen hell und sauber, gutes Exemplar. Sprache: Deutsch Gewicht in Gramm: 280.
Published by Vieweg und Springer, Berlin, 1926
Seller: Atticus Rare Books, West Branch, IA, U.S.A.
First Edition
1st Edition. Bound FIRST EDITION OF BORN, HEISENBERG, & JORDAN'S "MONUMENTAL" THREE-MAN PAPER, â??ON QUANTUM MECHANICS II', THE FIRST COMPLETE STATEMENT OF MATRIX MECHANICS (Peacock, Quantum Revolution, 52). Handsomely rebound. See details below. In this work, Born, Heisenberg, and Jordan extend the methods Heisenberg presented in his initial 1925 paper and apply them to a number of important problems. "This paper definitively set forth [and first named] matrix mechanics â?? the version of quantum mechanics based on the algebraic manipulation of matrices that represent observable quantities such as position, momentum, and energy. Detailed calculations showed that the new matrix mechanics was very successful in predicting the anomalous Zeeman Effect, other forms of line splitting, and line intensities. The three authors even produced a new derivation of Planck's Law" (ibid). In the early 1920s there were fundamental difficulties in atomic physics. The quantum theory of atomic structure, founded by Bohr and largely developed by Bohr and Sommerfeld, did not describe the properties of complicated atoms and molecules. "In spite of its high-sounding name and its successful solutions of numerous problems in atomic physics, â??quantum theory', and especially the â??quantum theory' of polyelectronic systems, prior to 1925, was, from the methodological point of view, a lamentable hodgepodge of hypotheses, principles, theorems, and computational recipes rather than a logical consistent theory. Every single quantum-theoretic problem had to be solved first in terms of classical physics; its classical solution had then to pass through the mysterious sieve of the quantum conditions or, as it happened in the majority of cases, the classical solution had to be translated into the language of quanta in conformance with the correspondence principle? In short, quantum theory still lacked two essential characteristics of a full-fledged scientific theory, conceptual autonomy and logical consistency" (Jammer, The Conceptual Development, 196). The work of Heisenberg, Born, and Jordan rectified these issues and marked the "starting point for the new quantum mechanics," also called matrix mechanics (DSB). Heisenberg published his initial paper formulating his new quantum theory in 1925, but without reference to matrices. "Later the same year, Max Born and Pascual Jordan published a second paper that introduced the matrix formulation for the special case of one degree of freedom" (History of Physics: The Wenner Collection). Finally, in early 1926, all three scientists collaborated on a third paper, this â??three-man paper', and extended the theory to an arbitrary number of degrees of freedom. In its final form, they argued, Heisenberg's formulation of the new quantum theory is a matrix algebra of quantum operators that "predicts the radiation resulting from electron state transitions between energy shells in the atom without reference to how the transitions occur" (ibid). CONDITION & DETAILS: Berlin: Vieweg und Springer. Large 8vo. (9 x 6 inches; 225 x 150mm). pp. 557-722. Two stamps on the title page; no other markings inside or out. Full volume handsomely rebound in black cloth gilt ruled and lettered at the spine. Tightly and solidly bound. Bright and clean throughout. Very good to near fine condition +.
Published by Julius Springer, Berlin
Seller: Atticus Rare Books, West Branch, IA, U.S.A.
First Edition
1st Edition. FIRST EDITIONS OF THREE LANDMARK PAPERS THAT TOGETHER FORMED THE THEORETICAL FOUNDATION OF QUANTUM MECHANICS. "In spite of its high-sounding name and its successful solutions of numerous problems in atomic physics, quantum theory, and especially the quantum theory of polyelectronic systems, prior to 1925, was, from the methodological point of view, a lamentable hodgepodge of hypotheses, principles, theorems, and computational recipes rather than a logical consistent theory. Every single quantum-theoretic problem had to be solved first in terms of classical physics; its classical solution had then to pass through the mysterious sieve of the quantum conditions or, as it happened in the majority of cases, the classical solution had to be translated into the language of quanta in conformance with the correspondence principle. In short, quantum theory still lacked two essential characteristics of a full-fledged scientific theory, conceptual autonomy and logical consistency" (Jammer, The Conceptual Development 196). The work of Heisenberg, Born, and Jordan in these papers began to rectify these issues and together marked the "starting point for the new quantum mechanics," also called matrix mechanics (DSB). "In May 1925, Heisenberg took on a new and difficult problem, the calculation of the line intensities of the hydrogen spectrum. Just as he had done with Kramers and Bohr, Heisenberg began with a Fourier analysis of the electron orbits. When the hydrogen orbit proved too difficult, he turned to the an harmonic oscillator. With a new multiplication rule relating the amplitudes and frequencies of the Fourier components to observed quantities, Heisenberg succeeded in quantizing the equations of motion for this system in close analogy with the classical equations of motion. In June Heisenberg returned to Göttingen, where he drafted his fundamental paper [the 1st paper], which he completed in July. In this paper Heisenberg proclaimed that the quantum mechanics of atoms should contain only relations between experimentally observable quantities. The resulting formalism served as the starting point for the new quantum mechanics, based, as Heisenberg's multiplication rule implied, on the manipulation of ordered sets of data forming a mathematical matrix. Born and his assistant, Pascual Jordan, quickly developed the mathematical content of Heisenberg's work into a consistent theory with the help of abstract matrix algebra [the 2nd paper].Their work, in collaboration with Heisenberg, culminated in their "three-man paper" ["Dreimännerarbeit", the 3rd paper] that served as the foundation of matrix mechanics. Confident of the correctness of the new theory, Heisenberg, Pauli, Born, Dirac, and others began applying the difficult mathematical formalism to the solution of lingering problems" (DSB). ALSO INCLUDED in ZfP Volume 33 is a major milestone in gravitational wave theory: the Czech physicist Guido Beck's discovery of a family of exact solutions to the equations of general relativity representing gravitational waves with cylindrical symmetry (called 'Beck vacua' or 'cylindrical gravitational waves'). His paper, "Zur Theorie Binärer Gravitationsfelder" appears on pp. 713-738. ALSO: We offer the Heisenberg paper (Volume 33) as a lone offering. Heisenberg, Werner "Über quantentheoretische Umdeutung kinematischer und mechanischer Beziehungen" in ZfP 33, 1925, pp. 879-893. ALSO, we offer Pauli's 1926 paper with the 1st significant application of & 1st validation of Heisenberg's new quantum mechanics. ("Über das Wasserstoffspektrum vom Standpunkt der neuen Quantenmechanik" in ZfP 36, 1926). CONDITION & DETAILS: In: ZfP 33 (1925), 34 (1925), 35 (1926). 8vo. (225 x 156mm). 3 full volumes. Volume 33 has no ex-libris stamps whatsoever; volumes 34 and 35 have some on the title page. Handsomely and uniformly rebound in grey linen, gilt-tooled and lettered at the spine. Tightly bound. Very clean inside and out. Near fine condition.
Published by Berlin : J. Springer, 1925
Book
Hardcover. Condition: Very Good. 2 Volumes. Band 34 and 37. Bound in modern 3/4 crushed red Moroccan leather. Red cloth boards. TEG. Gilt spine. 5 raised bands. Fine binding and cover. Clean, unmarked pages. Ships daily. Band 34 contains "Uber die physikalischen Konsequenzen der relativistischen Axiomatik" p. 32-48 by Hans Reichenbach and "Zur Quantenmechanik" p. 858-888 by Max Born and Pasqual Jordan. Band 37 contains the first Russian paper on matrix mechanics, "Zur Quantenmechanik des rotators", 685-688 by Igor Tamm, Anwendung der Quantenmechanik auf das Problem der anomalen Zeemaneffekte by Pasqual Jordan; Werner Heisenberg, 263-277 and Zur Quantenmechanik der Stossvorgange by Max Born, 863-867. Max Born's paper would he first to clearly enunciate the probabilistic interpretation of the quantum wavefunction, which had been introduced by Erwin Schrodinger. It would be criticize by Schrodinger but lead to Einstein's quote in a letter "He [God] does not play dice.
Berlin, Julius Springer, 1925-26. Bound in 4 nearly uniform contemp. hcloth. Edges a little rubbed. Stamp on title-pages. In "Zeitschrift für Physik. Hrsg. von Karl Scheel", Vols 33,34,35 and 36. VII,950"VII,953VIII,954"VII,951 pp. The offered papers: pp. 879-893 (vol.33), pp. 858-888 (vol.34), pp.557-615 (vol.35) and pp.336-363 (vol. 36). Internally fine and clean. First printings of these four absolutely fundamental papers, which together MARK THE TURNING POINT IN THE FABRICATION OF A NEW PHYSICS, Quantum Mechanics, also called "Matrix Mechanics"."In May 1925, Heisenberg took on a new and difficult problem, the calculation of the line intensities of the hydrogen spectrum. Just as he had done with Kramers and Bohr, Heisenberg began with a Fourier analysis of the electron orbits. When the hydrogen orbit proved too difficult, he turned to the anharmonic oscillator. With a new multiplication rule relating the amplitudes and frequencies of the Fourier components to observed quantities, Heisenberg succeeded in quantizing the equations of motion for this system in close analogy with the classical equations of motion.in June Heisenberg returned to Göttingen, where he drafted his fundamental paper [the first paper offered], which he completed in July. In this paper Heisenberg proclaimed that the quantum mechanics of atoms should contain only relations between experimentally observable quantities. The resulting formalism served as the starting point for the new quantum mechanics, based, as Heisenberg's multiplication rule implied, on the manipulation of ordered sets of data forming a mathematical matrix.Born and his assistant, Pascual Jordan, quickly developed the mathematical content of Heisenberg's work into a consistent theory with the help of abstract matrix algebra [the second paper offered].Their work, in collaboration with Heisenberg, culminated in their "three-man paper" ["Dreimännerarbeit" - the third paper offered] that served as the foundation of matrix mechanics. Confident of the correctness of the new theory, Heisenberg, Pauli, Born, Dirac, and others began applying the difficult mathematical formalism to the solution of lingering problems." (DSB).In the last paper offered, the Pauli-paper, he shows that the hydrogen spectrum can be derived from the new theory. His starting-point constitutes, due to Lez, a method for integrating the classical equations of motion of a particle in a Coulomb field. Pauli's paper was received on January 17, 1926, but the main result must have been obtained before November 3, 1925, for on that date, Heisenberg writes Pauli: ".Ich brauche Ihnen wohl nicht zu schreiben, wie sehr ich mich über die neue Theorie des Wasserstoffs freue." Pauli's paper convinced most physicists that Quantum Mechanics is correct. (Van der Waerden).
Published by Julius Springer, Berlin, 1926
Seller: Manhattan Rare Book Company, ABAA, ILAB, New York, NY, U.S.A.
First Edition
original wrappers. Condition: Very Good. 1st Edition. FIRST EDITION IN ORIGINAL WRAPPERS of the famous "three-man paper," the first, complete, self-consistent description of quantum mechanics. "In 1925, after an extended visit to Bohr's Institute of Theoretical Physics at the University of Copenhagen, Heisenberg tackled the problem of spectrum intensities of the electron taken as an anharmonic oscillator (a one-dimensional vibrating system). His position that the theory should be based only on observable quantities was central to his paper of July 1925, "Über quantentheoretische Umdeutung kinematischer und mechanischer Beziehungen" ("Quantum-Theoretical Reinterpretation of Kinematic and Mechanical Relations"). Heisenberg's formalism rested upon noncommutative multiplication; Born, together with his new assistant Pascual Jordan, realized that this could be expressed using matrix algebra, which they used in a paper submitted for publication in September as "Zur Quantenmechanik" ("On Quantum Mechanics"). By November, Born, Heisenberg, and Jordan had completed "Zur Quantenmechanik II" ("On Quantum Mechanics II"), colloquially known as the "three-man paper," which is regarded as the foundational document of a new quantum mechanics" (Britannica's Guide to the Nobel Prizes). Particle Physics: One Hundred Years of Discoveries: "Development of matrix formalism for the Heisenberg quantum mechanics. Systems with arbitrary many degrees of freedom." IN: Zeitschrift für Physik, Band 35, February 1926, pp. 557-615. Berlin: Julius Springer, 1926. Octavo, original wrappers. Small chip at base of spine. "Born, Heisenberg 35" in pencil on spine. Volume/issue number written in ink at top of front wrapper. One of the foundational papers in quantum mechanics, rare in original wrappers.
Published by Julius Springer, Berlin, 1925
Seller: Burnside Rare Books, ABAA, Portland, OR, U.S.A.
First Edition
Condition: Very Good. First Edition. 1925-26. First edition. Three extremely influential papers marking the theoretical foundation for modern quantum mechanics and defining the discipline: "Uber quantentheorestische Umdeutung kinematischer und mechanischer Beziehungen" by Werner Heisenberg; "Zur Quantenmechanik" by Max Born and Pasqual Jordan; and "Zur Quantenmechanik II" by Born, Heisenberg and Jordan. In Zeitschrift fur Physik, Vols. 33, total pp.879-950 (Heisenberg paper pp. 879-893); Vol. 34, total pp. 795-953, lean to spine; (Born, Jordan paper 858-888); Vol. 35, total pages pp. 557-722; (Born, Heisenberg, Jordan pp 557-615). In publisher's original wrappers with new spines, ink stamp to top right of front wrappers, minor creasing and soiling to wraps. Heisenberg received the Nobel Prize for physics in 1932 for his establishment of quantum mechanics.