Snyder ja (11 Ergebnisse)

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Hardcover. Zustand: new. Hardcover. Anti-imperial readings of ancient texts are popular, but are theyright? What does it mean to engage in political interpretation ofancient texts? What can Biblical scholars learn from Classicists aboutthe emperor cult? These are a few of the questions addressed in thisvolume. Highlighting the w…ork of scholars in Eastern and Western Europe,it offers fresh perspectives on political aspects of early Jewish andChristian texts. Contributions include exegetical studies with literaryand historical interests, as well as critical hermeneutical reflection.Essays analyze texts from the Hebrew Bible, Septuagint, and NewTestament, plus Josephus and extra-canonical Christian literature. "Anti-imperial" readings of ancient texts are popular, but are they right? What does it mean to engage in "political" interpretation of ancient texts? What can Biblical scholars learn from Classicists about the emperor cult? These are a few of the questions addressed in this volume. Highlighting the work of scholars in Eastern and We Shipping may be from multiple locations in the US or from the UK, depending on stock availability.

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Hardcover. Zustand: new. Hardcover. Anti-imperial readings of ancient texts are popular, but are theyright? What does it mean to engage in political interpretation ofancient texts? What can Biblical scholars learn from Classicists aboutthe emperor cult? These are a few of the questions addressed in thisvolume. Highlighting the w…ork of scholars in Eastern and Western Europe,it offers fresh perspectives on political aspects of early Jewish andChristian texts. Contributions include exegetical studies with literaryand historical interests, as well as critical hermeneutical reflection.Essays analyze texts from the Hebrew Bible, Septuagint, and NewTestament, plus Josephus and extra-canonical Christian literature. "Anti-imperial" readings of ancient texts are popular, but are they right? What does it mean to engage in "political" interpretation of ancient texts? What can Biblical scholars learn from Classicists about the emperor cult? These are a few of the questions addressed in this volume. Highlighting the work of scholars in Eastern and We Shipping may be from our Sydney, NSW warehouse or from our UK or US warehouse, depending on stock availability.
Weitere BilderOtras meninas: 9 (La Biblioteca Azul / Serie menor)
Foucault, Michel; Emmens, J. A.; Brown, Jonathan; Steinberg, Leo; Searle, John R.; Snyder, Joel; Cohen, Ted; Alpers, Svetlana; Vahlne, Bo; Moffitt, John F.; Stoichita, Victor I.; Elias, Norbert; Serrera, Juan Miguel; Marías, Fernando
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Encuadernación de tapa blanda. Zustand: Muy bien. 2ª Edición. ¿Se puede contemplar todavía hoy, de manera inocente, un cuadro como Las Meninas, cuando sobre su imagen se superponen y entrecruzan tantas otras, desde los numerosos retratos de familias reales o grupos hasta obras de interpretación directa, como las de Goya o Picass…o? El libro presenta aspecto de estar casi como nuevo y sin uso, aunque se nota que lleva un tiempo guardado, sin estar por ello deteriorado.

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Foucault, Michel / Emmens, J. A. / Brown, Jonathan / Steinberg, Leo / Searle, John R. / Snyder, Joel / Cohen, Ted / Alpers, Svetlana / Vahlne, Bo / Moffitt, John F. / Stoichita, Victor I. / Elias, Nor
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Weitere BilderThe mechanism of nuclear fission [N. Bohr. & J. A. Wheeler] "On continued gravitational contraction" [J. R. Oppenheimer & H. Snyder]. - [THE FIRST THEORETICAL DESCRIPTION OF A SINGULARITY]
"BOHR, N. (+) J. A. WHEELER (+) J. R. OPPENHEIMER (+) H. SNYDER.
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Lancaster, American Institute of Physics, 1939. Royal8vo. In the original green printed wrappers. In "The Physical Review", Volume 56, Second Series, Number 5, September 1. With cloth back-strip. A quire, affecting both papers, detached but without any loss of paper. A few minor tear throughout, far from affecting text. [Bohr &…Wheeler:] Pp. 426-50. [Oppenheimer & Snyder:] Pp. 455-59. [Entire volume: Pp. 387-486]. First printing of two landmark papers, all of seminal importance in history of physics: The intricacies of the fission process, the groundwork for atomic and hydrogen bombs and the forgotten birth of black holes: The first theoretical description of a black hole, the production of a singularity when a sufficiently large neutron star collapses.Oppenheimer and Snyder's "ON CONTINUED GRAVITATIONAL CONTRACTION" constitute the very first theoretical prediction of a singularity when a sufficiently large neutron star collapses. This phenomenon was later to be coined as a black hole. "Had J. Robert Oppenheimer not led the US effort to build the atomic bomb, he might still have been remembered for figuring out how a black hole could form." (American Physical Society). The paper has by several physics historians been described as the forgotten birth of black holes. "Oppenheimer and his graduate student George Volkoff presented the first analysis of the formation of a neutron star in a 1939 Physical Review paper titled, "On Massive Neutron Stars". Oppenheimer wondered what would happen to a very massive neutron star. The Schwartzschild analysis of General Relativity has a theoretical limit, called the "Schwartzschild limit", when the ratio of mass-to-radius of a star is 236,000 times greater than the ratio for our sun. When this limit is exceeded, the Schwartzschild analysis does not yield a solution. Oppenheimer believed that a neutron star could have sufficient mass to exceed this limit. What would happen to it? Oppenheimer and his graduate student Hartland Snyder applied General Relativity theory to a star with sufficient mass and density to exceed the Schwartzschild limit. The Schwartzschild analysis assumed that the size of the star stays constant with time. Oppenheimer and Snyder found that they could achieve a real solution from General Relativity when the Schwartzschild limit is exceeded by assuming that the diameter of the star decreases with time. They presented their analysis in a 1939 Physical Review paper, titled, "On Continual Gravitational Contraction," which concluded with: "When all thermonuclear sources of energy are exhausted, a sufficiently heavy star will collapse. Unless fission due to rotation, the radiation of mass, or the blowing off of mass by radiation, reduce the star's mass to the order of that of the sun, this contraction will continue indefinitely." This analysis concluded that when the Schwartzschild limit is exceeded, the star must collapse indefinitely until it reaches a singularity having an infinite density of matter" (Bjornson, Singularity Predictions of General Relativity, P. 4).The Chandrasekhar / Eddington controvery in the mid 30ies did discuss the fate of neutron stars but the first thoroughly theoretical desciption was first published here. "THE MECHANISM OF NUCLEAR FISSION" is the first fully worked out theory of nuclear fission, which laid the groundwork for atomic and hydrogen bombs."Wheeler's technical mastery of physics is best seen in the classic paper of Bohr and Wheeler. Bohr and Wheeler wrote the paper in Princeton, where Bohr was visiting in the spring of 1939, a few months after the discovery of fission. The paper is a masterpiece of clear thinking and lucid writing. It reveals, at the center of the mystery of fission, a tiny world where everything can be calculated and everything understood. The tiny world is a nucleus of uranium 236, formed when a neutron is freshly captured by a nucleus of uranium 235. The uranium 236 nucleus sits precisely on the border between classical and quantum physics. Seen from the classical point of view, it is a liquid drop composed of a positively charged fluid. The electrostatic force that is trying to split it apart is balanced by the nuclear surface tension that is holding it together. The energy supplied by the captured neutron causes the drop to oscillate in various normal modes that can be calculated classically. Seen from the quantum point of view, the nucleus is a superposition of a variety of quantum states leading to different final outcomes. The final outcome may be a uranium 235 nucleus with a re-emitted neutron, or a uranium 236 nucleus with an emitted gamma-ray, or a pair of fission-fragment nuclei with one or more free neutrons. Bohr and Wheeler calculate the cross-section for fission of uranium 235 by a slow neutron and get the right answer within a factor of two. Their calculation is a marvelous demonstration of the power of classical mechanics and quantum mechanics working together. By studying this process in detail, they show how the complementary views provided by classical and quantum pictures are both essential to the understanding of nature. Without the combined power of classical and quantum concepts, the intricacies of the fission process could never have been understood. Bohr's notion of complementarity is triumphantly vindicated" (John Archibald Wheeler, Proceedings of the American Philosophical Society 154 (2010)).
Weitere BilderForces in molecules [Feynman] (+) The mechanism of nuclear fission [N. Bohr. & J. A. Wheeler] "On continued gravitational contraction" [J. R. Oppenheimer & H. Snyder]. - [FEYNMAN'S UNDERGRADUATE THESIS & THE FIRST THEORETICAL DESCRIPTION OF A SINGULARITY]
"FEYNMAN, R. P. (+) N. BOHR (+) J. A. WHEELER (+) J. R. OPPENHEIMER (+) H. SNYDER.
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[Lancaster], American Institute of Physics, 1939. Royal8vo. Bound in contemporary full red cloth with gilt lettering to spine. Entire volume of "The Physical Review", Volume 56, Second Series, July 1 - December 15, 1939. "Development Department" in small gilt lettering to lower part of spine. A very fine and clean copy. [Feynman…:] Pp. 340-43. [Bohr & Wheeler:] Pp. 426-50. [Oppenheimer & Snyder:] Pp. 455-59. [Entire volume: X, 1264 pp.]. First printing of three landmark papers, all of seminal importance in history of physics: Feynman's undergraduate thesis at MIT, the intricacies of the fission process, the groundwork for atomic and hydrogen bombs and the forgotten birth of black holes: The first theoretical description of a black hole, the production of a singularity when a sufficiently large neutron star collapses.First printing of "FORCES IN MOLECULES" - know known as Feynman-Hellmann theorem - is Feynman's undergraduate thesis at MIT, published when he was just twenty-one, which helped to establish his name in the world of physics. "This work treated the problem of molecular forces from a thoroughly quantum-mechanical point of view, arriving at a simple means of calculating the energy of a molecular system that continues to guide quantum chemists." (DSB). "As Feynman conceived the structure of molecules, forces were the natural ingredients. He saw springlike bonds with varying stiffness, atoms attracting and repelling one another. The usual energy-accounting methods seemed secondhand and euphemistic: [He demonstrated that] the force on an atom's nucleus is no more or less than the electrical force from the surrounding field of charged electrons-the electrostatic force. Once the distribution of charge has been calculated quantum mechanically, then from that point forward quantum mechanics disappears from the picture. The problem becomes classical" the nuclei can be treated as static points of mass and charge. Feynman's approach applies to all chemical bonds" (Gleick, The Life and Science of Richard Feynman, P. 54).Oppenheimer and Snyder's "ON CONTINUED GRAVITATIONAL CONTRACTION" constitutes the very first theoretical prediction of a singularity when a sufficiently large neutron star collapses. This phenomenon was later to be coined as a black hole. "Had J. Robert Oppenheimer not led the US effort to build the atomic bomb, he might still have been remembered for figuring out how a black hole could form." (American Physical Society). Many historians of physics describe this paper as the forgotten birth of black holes. "Oppenheimer and his graduate student George Volkoff presented the first analysis of the formation of a neutron star in a 1939 Physical Review paper titled, "On Massive Neutron Stars". Oppenheimer wondered what would happen to a very massive neutron star. The Schwartzschild analysis of General Relativity has a theoretical limit, called the "Schwartzschild limit", when the ratio of mass-to-radius of a star is 236,000 times greater than the ratio for our sun. When this limit is exceeded, the Schwartzschild analysis does not yield a solution. Oppenheimer believed that a neutron star could have sufficient mass to exceed this limit. What would happen to it? Oppenheimer and his graduate student Hartland Snyder applied General Relativity theory to a star with sufficient mass and density to exceed the Schwartzschild limit. The Schwartzschild analysis assumed that the size of the star stays constant with time. Oppenheimer and Snyder found that they could achieve a real solution from General Relativity when the Schwartzschild limit is exceeded by assuming that the diameter of the star decreases with time. They presented their analysis in a 1939 Physical Review paper, titled, "On Continual Gravitational Contraction," which concluded with: "When all thermonuclear sources of energy are exhausted, a sufficiently heavy star will collapse. Unless fission due to rotation, the radiation of mass, or the blowing off of mass by radiation, reduce the star's mass to the order of that of the sun, this contraction will continue indefinitely." This analysis concluded that when the Schwartzschild limit is exceeded, the star must collapse indefinitely until it reaches a singularity having an infinite density of matter" (Bjornson, Singularity Predictions of General Relativity, P. 4).The Chandrasekhar / Eddington controvery in the mid 30ies did discuss the fate of neutron stars but the first thoroughly theoretical desciption was first published here. "THE MECHANISM OF NUCLEAR FISSION" is the first fully worked out theory of nuclear fission, which laid the groundwork for atomic and hydrogen bombs."Wheeler's technical mastery of physics is best seen in the classic paper of Bohr and Wheeler. Bohr and Wheeler wrote the paper in Princeton, where Bohr was visiting in the spring of 1939, a few months after the discovery of fission. The paper is a masterpiece of clear thinking and lucid writing. It reveals, at the center of the mystery of fission, a tiny world where everything can be calculated and everything understood. The tiny world is a nucleus of uranium 236, formed when a neutron is freshly captured by a nucleus of uranium 235. The uranium 236 nucleus sits precisely on the border between classical and quantum physics. Seen from the classical point of view, it is a liquid drop composed of a positively charged fluid. The electrostatic force that is trying to split it apart is balanced by the nuclear surface tension that is holding it together. The energy supplied by the captured neutron causes the drop to oscillate in various normal modes that can be calculated classically. Seen from the quantum point of view, the nucleus is a superposition of a variety of quantum states leading to different final outcomes. The final outcome may be a uranium 235 nucleus with a re-emitted neutron, or a uranium 236 nucleus with an emitted gamma-ray, or a pair of fission-fragment nuclei with one or more free neutrons. Bohr and.

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Zustand: New. Dieser Artikel ist ein Print on Demand Artikel und wird nach Ihrer Bestellung fuer Sie gedruckt. KlappentextrnrnKingdom X exists in a time when magic is possible. An Oracle of Elders guides the kind king in matters of great importance, while noble knights and honorable guards protect Xinesse from those who would di…srupt and destroy this spe.

Forces in Molecules (Feynman, pp. 340-343) with The Mechanism of Nuclear Fission (Bohr and Wheeler, pp. 426-50) AND On Continued Gravitational Contraction (Oppenheimer and Snyder, pp. 455-59) in Physical Review, Volume 56, 1939 [Full Volume: FEYNMAN'S UNDERGRADUATE THESIS & THE 1st DESCRIPTION OF A SINGULARITY -- A BLACK HOLE]
Feynman, R. P. AND Bohr, N. & Wheeler, J. A. AND Oppenheimer, J. R. & Snyder, H.
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FULL VOLUME 1st EDITION OF THREE LANDMARK PAPERS, each of seminal import in the history of physics. FEYNMAN'S "Forces in molecules" is the first edition of Feynman's undergraduate thesis, the paper that began to establish his name in physics. Published when he was just twenty-one, his work here a fundamental discovery "that has…played an important role in theoretical chemistry and condensed matter physics" (Selected Papers, p. 1). This extraordinary work documents the first steps in original research of one of the most brilliant minds of the twentieth century. Feynman showed in this paper that "the force on an atom's nucleus is no more or less than the electrical force from the surrounding field of charged electrons - the electrostatic force. Once the distribution of charge has been calculated quantum mechanically, then from that point forward quantum mechanics disappears from the picture. The problem becomes classical; the nuclei can be treated as static points of mass and charge. Feynman's approach applies to all chemical bonds. If two nuclei act as though strongly attracted to each other, as the hydrogen nuclei do when they bond to form a water molecule, it is because the nuclei are each drawn toward the electrical charge concentrated quantum mechanically between them" (Gleick, Genius: The Life and Science of Richard Feynman). The paper is known as the Feynman-Hellmann theorem and it proposed an original and enduring approach to calculating forces in molecules. Feynman "treated the problem of molecular forces from a thoroughly quantum-mechanical point of view, arriving at a simple means of calculating the energy of a molecular system that continues to guide quantum chemists" (DSB). "Feynman was one of the most creative and influential physicists of the twentieth century. A veteran of the Manhattan Project of World War II and a 1965 Nobel laureate in physics, he made lasting contributions across many domains, from electrodynamics and quantum theory to nuclear and particle physics, solid-state physics, and gravitation" (ibid). BOHR & WHEELER'S "The mechanism of nuclear fission" is the first fully worked out theory of nuclear fission and it laid the groundwork for atomic and hydrogen bombs"The paper is a masterpiece of clear thinking and lucid writing. It reveals, at the center of the mystery of fission, a tiny world where everything can be calculated and everything understood. The tiny world is a nucleus of uranium 236, formed when a neutron is freshly captured by a nucleus of uranium 235. The uranium 236 nucleus sits precisely on the border between classical and quantum physics" By studying this process in detail, they show how the complementary views provided by classical and quantum pictures are both essential to the understanding of nature. Without the combined power of classical and quantum concepts, the intricacies of the fission process could never have been understood. Bohr's notion of complementarity is triumphantly vindicated" (Barrow, Science and Ultimate Reality, xvii). OPPENHEIMER & SNYDER'S "On continued gravitational contraction" constitutes the very first theoretical prediction of a singularity when a sufficiently large neutron star collapses -- the extraordinary correct physical description of what happens in a particular collapse of a neutron star. This phenomenon was later to be coined as a black hole. "Had J. Robert Oppenheimer not led the US effort to build the atomic bomb, he might still have been remembered for figuring out how a black hole could form" (American Physical Society). This paper has been described as the forgotten birth of black holes. Lancaster: American Institute of Physics, 1939. Royal 8vo. (10.5 x 8 inches); 267 x 203 mm. Entire volume in contemporary full black cloth, gilt-lettered at the spine. Ex-libris with NO spine markings & bearing only a small, largely invisible perforated stamp at the foot of the title page. Tightly and very solidly bound. Bright and very clean throughout. Near.