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HARVEY T / AMES LEE J.
FARADAY.
R.S.T.. 1962. In-4. Relié. Etat d'usage, Couv. convenable, Dos satisfaisant, Intérieur frais. 56 pages augmentées de nombreuses illustrations en couleurs dans et hors texte - plusieurs pages désolidarisées du reste de l'ouvrage.. . . . Classification Dewey : 538-Magnétisme
Reference : RO20155208
Classification Dewey : 538-Magnétisme
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5 book(s) with the same title
Gooding (David) and James (Frank J.L.) on Michael Faraday - David M. Knight - Sophie Forgan - Geoffrey N. Cantor - Brian Bowers - Nancy J. Nersessian - Ryan D. Tweney - Elspeth Crawford
Reference : 100093
(1985)
Faraday Rediscovered - Essays on the Life and Work of Michael Faraday, 1791-1867 , (Davy and Faraday : Father and Sons - Faraday, from Servant to Savant, the institutional context - Reading the Book of Nature : The relation between Faraday's religion and his science - In Nature's school : Faraday as an experimentalist - The optical mode of investigation : Light and matter in Faraday's Natural philosophy -Faraday, Wheatstone and electrical engineering - Faraday's field concept - Faraday's discovery of induction - Learning from experience)
Stockton Press Malicorne sur Sarthe, 72, Pays de la Loire, France 1985 Book condition, Etat : Bon hardcover, editor's binding, under editor's blue printed dust-jacket, illustrated by a photograph of Michael Faraday In-8 1 vol. - 272 pages
1 plate in frontispiece (Faraday's Laboratory) and 15 other plates (complete of the 16 plates) 1st edition, 1985 Contents, Chapitres : Contents, List of plates, Notes on contributors, Foreword by Professor Sir George Porter, xiv, Text, 258 pages - David Gooding and Frank A.J.L. James : Faraday rediscovered - David M. Knight : Davy and Faraday : Father and Sons - Sophie Forgan : Faraday, from Servant to Savant, the institutional context - Geoffrey N. Cantor : Reading the Book of Nature : The relation between Faraday's religion and his science - David Gooding : In Nature's school : Faraday as an experimentalist - Frank A.J.L. James : The optical mode of investigation : Light and matter in Faraday's Natural philosophy - Brian Bowers : Faraday, Wheatstone and electrical engineering - Nancy J. Nersessian : Faraday's field concept - Ryan D. Tweney : Faraday's discovery of induction - Elspeth Crawford : Learning from experience - Bibliographical notes, Collected bibliography and index dust-jacket complete, unmarked and near fine, small part of the bottom right corner is lightly torn, without missings, inside is fine, no markings, a French publisher retailer sticker inside the front cover (Lavoisier), it's NOT an ex-library copy, a rather nice copy
Experimental Researches in Electricity. (Twenty-second Series). [Offprint: Philosophical Transactions, Part 1 for 1849]. - [INSCRIBED BY FARADAY TO LORD KELVIN]
London: Richard and John E. Taylor, 1849. Large 4to. (300x231mm). Original blank wrappers. Some small tears. Back strip proffesionally repaired with Japanese paper. With presentation-inscription by Faraday in ink on title page: ""William Thomson Esq. | St. Peters College | from the Author."" (2),41,(1:blank) pp.
First edition, rare offprint-issue, of ""one of the great classics of chemistry and physics"". With an extremely attractive presentation-inscription from Faraday to William Thomson (later Lord Kelvin), who delivered the first mathematical exposition of Faraday's researches in electricity. Thomson provided an important theoretical direction for Faraday's interpretation of his own experiments and the two colleagues motivated and inspired each other to a degree that the research and knowledge of electricity they possessed and published would not have would have been reached until many years later. The paper itself is of the utmost importance, since much of Faraday's groundbreaking research published in 1831-1839 contained many shortcomings and errors which are corrected in this publication. ""The corrected second edition of volume 1 is preferred, because the first edition (London 1839) contained many errors"". (Neville, Historical Chemical Library).""In June 1849 William Thomson wrote to Michael Faraday suggesting that the concept of a uniform magnetic field could be used to predict the motions of small magnetic and diamagnetic bodies. [...] There had been an important exchange of ideas between the two, who had a common interest in explaining voltaic, electrostatic, magnetic, optical, and thermal phenomena. They meet every year between 1845 (where they became acquainted) and 1849"". (Gooding, Faraday, Thomson, and the Concept of the Magnetic Field).In 1845 Thomson gave the first mathematical development of Faraday's idea that electric induction takes place through an intervening medium, or ""dielectric"", and not by some imprecise ""action at a distance"". He also devised a hypothesis of electrical images, which became a powerful agent in solving problems of electrostatics, or the science which deals with the forces of electricity at rest. It was partly in response to his encouragement that Faraday undertook the research in September 1845 that led to the discovery of the Faraday Effect, which established that light and magnetic (and thereby electric) phenomena were related.Faraday was also the direct cause of William Thomson's work on the transatlantic submarine telegraph cable. In 1854, Faraday had demonstrated how the construction of a cable would limit the rate at which messages could be sent, which later would be termed the bandwidth. Thomson immediately looked into the problem and published his response the same month Faraday had published his observations. Thomson expressed his results in terms of the data rate that could be achieved and the economic consequences in terms of the potential revenue of the transatlantic undertaking. In 1855, Thomson stressed the impact that the design of the cable would have on its profitability. Thomson's work on the cable consequently resulted in a complete system for operating a submarine telegraph that was capable of sending a character every 3.5 seconds. He patented the key elements of his system, the mirror galvanometer and the siphon recorder, in 1858.From 1831 to 1852, Michael Faraday published his ""Experimental Researches in Electricity"" in The Philosophical Transactions of the Royal Society. These papers contain not only an impressive series of experimental discoveries, but also a collection of heterodox theoretical concepts on the nature of these phenomena expressed in terms of lines of forces and fields. He published 30 papers in all under this general title. They represent Faraday's most important work, are classics in both chemistry and physics, and are the experimental foundations for Maxwell's electro-magnetic theory of light, using Faraday's concepts of lines of force or tubes of magnetic and electrical forces. His many experiments on the effects of electricity and magnetism presented in these papers lead to the fundamental discoveries of 'induced electricity' (the Faraday current), the electronic state of matter, the identity of electricity from different sources, equivalents in electro-chemical decomposition, electrostatic induction, hydro-electricity, diamagnetism, relation of gravity to electricity, atmospheric magnetism, and many others.""Among experimental philosophers Faraday holds by universal consent the foremost place. The memoirs in which his discoveries are enshrined will never cease to be read with admiration and delight"" and future generation will preserve with an affection not less enduring the personal records and familiar letters, which recall the memory of his humble and unselfish spirit."" (Whittaker, A History of the Theories of Aether & Electricity, p. 197).
Sur les Mouvemens électro-magnétiques et la théorie du magnétisme. (Traduit par M. Anatole-Riffault). + (André-Marie Ampere et Felix Savary:) Notes relatives au Mémoire de M. Faraday. - [ THE FIRST ELECTRIC MOTOR - INTRODUCING ""LINES OF FORCE"" AND THE UNIVERSE OF ""FIELDS"" (FRENCH EDITION).]
Paris, Crochard, 1821. 8vo. In contemporary half calf. Wear to extremities and hindges weak. Weak dampstain to lower inner margin, not affecting text. In: ""Annales de Chimie et de Physique, Par MM. Gay-Lussac et Arago."", tome 18 (Septembre Cahier). Entire volume offered. [Faraday's paper:] pp. 337-370 and 2 folded engraved plates (showing the experimental apparatus). [Ampère & Savary's Notes:] pp. 370-379. [Entire volume: 448 pp. + 5 plates.
First French edition of Faraday's famous paper ""On some new Electro-Magnetical Motion, and on the Theory of Magnetism. By Michael Faraday, Chemical Assistant in the Royal Institution. (1821)"", recording one of the most influential discoveries in physics in the 19th Century, as Faraday here, as the very first, showed how to CONVERT THE ELECTRICAL AND MAGNETIC FORCES INTO CONTINUAL MECHANICAL MOVEMENT, thus creating the first electric motor, using the principle of electromagnetic rotation. In the first paper he introduced for the first time the concept of ""LINE OF FORCE"" and hereby deliniating ""a picture of the universe as consisting of fields of various types, one that was more subtle, flexible, and useful than the purely mechanical picture of Galileo and Newton. The FIELD UNIVERSE was to be recognized with Maxwell half a century later and with Einstein, after an interval of another halfcentury.""(Asimov).""Ever since Hans Christian oersted's announcement of the discovery of electromagnetism in the summer of 1820, editors of scientific journals had been inundated with articles on the phenomenon. Theories to explain it had multiplied, and the net effect was confusion. Were all the effects reported real ? Did the theories fit the facts ? It was to answer these questions that Phillips turned to Faraday and asked him to review the experiments and theories of the past months and separate truth from fiction,...Faraday agreed to to undertake a short historical survey...His entusiasm was aroused in September 1821, when he turned to the investigation of the peculiar nature of the magnetic force created by an electrical current. Oersted had spoken of the ""electrical conflict"" surrounding the wiree and had noted that ""this conflict performs circles"".....Yet as he experimented he saw precisely what was happening. Using a small magnetic needle to map the pattern of magnetic force, he noted that oneof the poles of the needle turned in a circle as it was carried around the wire. He immediately realized that a single magnetic pole would rotate unceasingly around a current-carrying wire so long as the current flowed. He then set about devising an instrument to illustrate this effect. His paper ""On some new Electro-Magnetical Motion, and on the Theory of Magnetism"" appeared in the 21 October 1821 issue of the ""Quarterly Journal of Science"" (The paper offered in the first French edition). It records the first conversion of electrical into mechanical energy. It also contained the first notion of the line of force.""(DSB IV, pp. 533).
Sur les Mouvemens électro-magnétiques et la théorie du magnétisme. (Traduit par M. Anatole-Riffault). + (André-Marie Ampere et Felix Savary:) Notes relatives au Mémoire de M. Faraday. - [ THE FIRST ELECTRIC MOTOR - INTRODUCING ""LINES OF FORCE"" AND THE UNIVERSE OF ""FIELDS"" (FRENCH EDITION).]
Paris, Crochard, 1821. 8vo. In contemporary half calf with gilt lettering to spine. Traces of paper label to lower part of spine. Light wear to extremities and small stamp to title page. In: ""Annales de Chimie et de Physique, Par MM. Gay-Lussac et Arago."", tome 17 & 18 (Septembre Cahier). Entire volume offered. A fine copy. [Faraday's paper:] pp. 337-370 and 2 folded engraved plates (showing the experimental apparatus). [Ampère & Savary's Notes:] pp. 370-379. [Entire volume: 448 pp. + 1 plate"" 448 pp. + 5 plates.
First French edition of Faraday's famous paper ""On some new Electro-Magnetical Motion, and on the Theory of Magnetism. By Michael Faraday, Chemical Assistant in the Royal Institution. (1821)"", recording one of the most influential discoveries in physics in the 19th Century, as Faraday here, as the very first, showed how to CONVERT THE ELECTRICAL AND MAGNETIC FORCES INTO CONTINUAL MECHANICAL MOVEMENT, thus creating the first electric motor, using the principle of electromagnetic rotation. In the first paper he introduced for the first time the concept of ""LINE OF FORCE"" and hereby deliniating ""a picture of the universe as consisting of fields of various types, one that was more subtle, flexible, and useful than the purely mechanical picture of Galileo and Newton. The FIELD UNIVERSE was to be recognized with Maxwell half a century later and with Einstein, after an interval of another halfcentury.""(Asimov).""Ever since Hans Christian Oersted's announcement of the discovery of electromagnetism in the summer of 1820, editors of scientific journals had been inundated with articles on the phenomenon. Theories to explain it had multiplied, and the net effect was confusion. Were all the effects reported real ? Did the theories fit the facts ? It was to answer these questions that Phillips turned to Faraday and asked him to review the experiments and theories of the past months and separate truth from fiction,...Faraday agreed to to undertake a short historical survey...His entusiasm was aroused in September 1821, when he turned to the investigation of the peculiar nature of the magnetic force created by an electrical current. Oersted had spoken of the ""electrical conflict"" surrounding the wiree and had noted that ""this conflict performs circles"".....Yet as he experimented he saw precisely what was happening. Using a small magnetic needle to map the pattern of magnetic force, he noted that oneof the poles of the needle turned in a circle as it was carried around the wire. He immediately realized that a single magnetic pole would rotate unceasingly around a current-carrying wire so long as the current flowed. He then set about devising an instrument to illustrate this effect. His paper ""On some new Electro-Magnetical Motion, and on the Theory of Magnetism"" appeared in the 21 October 1821 issue of the ""Quarterly Journal of Science"" (The paper offered in the first French edition). It records the first conversion of electrical into mechanical energy. It also contained the first notion of the line of force.""(DSB IV, pp. 533).
"FARADAY, MICHAEL. - THE FIRST ELECTRIC MOTOR - INTRODUCING ""LINES OF FORCE"" AND THE UNIVERSE OF ""FIELDS"" (FRENCH EDITION).
Reference : 43750
(1821)
Sur les Mouvemens électro-magnétiques et la théorie du magnétisme. (Traduit par M. Anatole-Riffault). + (André-Marie Ampere et Felix Savary:) Notes relatives au Mémoire de M. Faraday.
(Paris, Crochard, 1821). No wrappers. In: ""Annales de Chimie et de Physique, Par MM. Gay-Lussac et Arago."", tome 18 (Septembre Cahier). Pp. 337-443. (Entire issue offered). Faraday's paper: pp. 337-370 a. 2 folded engraved plates (showing the experimental apparatus). Ampère & Savary's Notes: pp. 370-379. Clean and fine.
First French edition of Faraday's famous paper ""On some new Electro-Magnetical Motion, and on the Theory of Magnetism. By Michael Faraday, Chemical Assistant in the Royal Institution. (1821)"", recording one of the most influential discoveries in physics in the 19th Century, as Faraday here, as the very first, showed how to CONVERT THE ELECTRICAL AND MAGNETIC FORCES INTO CONTINUAL MECHANICAL MOVEMENT, thus creating the first electric motor, using the principle of electromagnetic rotation. In the first paper he introduced for the first time the concept of ""LINE OF FORCE"" and hereby deliniating ""a picture of the universe as consisting of fields of various types, one that was more subtle, flexible, and useful than the purely mechanical picture of Galileo and Newton. The FIELD UNIVERSE was to be recognized with Maxwell half a century later and with Einstein, after an interval of another halfcentury.""(Asimov).""Ever since Hans Christian oersted's announcement of the discovery of electromagnetism in the summer of 1820, editors of scientific journals had been inundated with articles on the phenomenon. Theories to explain it had multiplied, and the net effect was confusion. Were all the effects reported real ? Did the theories fit the facts ? It was to answer these questions that Phillips turned to Faraday and asked him to review the experiments and theories of the past months and separate truth from fiction,...Faraday agreed to to undertake a short historical survey...His entusiasm was aroused in September 1821, when he turned to the investigation of the peculiar nature of the magnetic force created by an electrical current. Oersted had spoken of the ""electrical conflict"" surrounding the wiree and had noted that ""this conflict performs circles"".....Yet as he experimented he saw precisely what was happening. Using a small magnetic needle to map the pattern of magnetic force, he noted that oneof the poles of the needle turned in a circle as it was carried around the wire. He immediately realized that a single magnetic pole would rotate unceasingly around a current-carrying wire so long as the current flowed. He then set about devising an instrument to illustrate this effect. His paper ""On some new Electro-Magnetical Motion, and on the Theory of Magnetism"" appeared in the 21 October 1821 issue of the ""Quarterly Journal of Science"" (The paper offered in the first French edition). It records the first conversion of electrical into mechanical energy. It also contained the first notion of the line of force.""(DSB IV, pp. 533).
