184 824 résultats
19121512956Leipzig, 1912. 126 S., 1 Bl. Br. (lichtrandig).
18851016271Leipzig, 1885. 44 S. Br.
Very Good English Paperback. Pbo. Royç 8vo. (24 x 17 cm). In German. 160-164 pp. Über einige Konjugationsformen in den anatolischen Mundarten. Separatum 'Sprache, Geschichte und Kultur der Altaischen völker.
19342138604Sapporo: ohne Verlag 1934. Seiten 355-359, (5). Mit einer Bildtafel. Gr. 8° (22,5-25 cm) Orig.-Broschur. [Softcover / Paperback].
19000243351900. This is the original 1900 edition -- NOT print on demand edition or modern reprint. Good condition. Crease to corner of the rear cover. NO text is affected. Pages are otherwise clean and unmarked. Reprinted from Sitzungsberichte der Koniglich preussischen Akademie der Wissenschaften zu Berlin 1900 VI. Bound in the original wraps stamped in black. This is from the library of and bears the small ink stamp of American mathematician Temple Rice Hollcroft 1889 - 1967 who received B.S. in 1912 and A.B. in 1914 from Hanover College and then A.M. in 1915 from the University of Kentucky. He received his Ph.D. in 1917 from Cornell University under Virgil Snyder. Hollcroft was a mathematics professor at Wells College from 1918 to 1954 from which he retired as professor emeritus. Hollcroft served for 14 years as Associate Secretary of the American Mathematical Society. In 1932 in Zurich he was an Invited Speaker of the International Congress of Mathematician ICM. His subject was THE GENERAL WEB OF SURFACES AND THE SPACE INVOLUTION DEFINED BY IT . Being invited to talk at the ICM has been called "the equivalent of induction to a hall of fame." - from Wikipedia. INSCRIBED/SIGNED by the AUTHOR. Softcover stapled wraps. Good condition. Illus. by NOT a library discard. 5 pages. Great Packaging Fast Shipping. Paperback
1931025874Amsterdam The Netherlands: Proceedings Koninklijke Akademie van Wetenschappen te Amsterdam 1931. INSCRIBED by the AUTHOR. Very Good condition. Light cover wear/soil. Horizonal crease from folding in half for mailing Pages are clean and unmarked. Reprinted from the Proceedings Vol. XXXIV No. 9 1931. Inscribed on the front cover: "With the author's compliments." In addition there are two ink corrections in the aythor's hand. This is the original 1931 publication -- NOT print on demand edition or modern reprint. Bound in the original wraps stamped in black. This volume was among several dozen books from Temple Rice Hollcroft's library that we were lucky enough to purchase at auction in New Jersey. The American mathematician Temple Rice Hollcroft 1889 - 1967 received B.S. in 1912 and A.B. in 1914 from Hanover College and then A.M. in 1915 from the University of Kentucky. He received his Ph.D. in 1917 from Cornell University under Virgil Snyder. Hollcroft was a mathematics professor at Wells College from 1918 to 1954 from which he retired as professor emeritus. Hollcroft served for 14 years as Associate Secretary of the American Mathematical Society. In 1932 in Zurich he was an Invited Speaker of the International Congress of Mathematician ICM. His subject was THE GENERAL WEB OF SURFACES AND THE SPACE INVOLUTION DEFINED BY IT . Being invited to talk at the ICM has been called "the equivalent of induction to a hall of fame." - from Wikipedia. . INSCRIBED / SIGNED by the AUTHOR. First Edition Thus. Softcover. Very Good condition. Illus. by NOT a library discard. pp. 547 - 551. Great Packaging Fast Shipping. Proceedings, Koninklijke Akademie van Wetenschappen te Amsterdam Paperback
190542829Leipzig, S. Hirzel, 1905. No wrappers. Issued in ""Jahrbuch der Radioaktivität und Elekronik"", 2. Bd., Heft 3. Hahn's paper: pp. 233-264. Enntire issue: pp. 233-262 (= entire ""Heft 3""). Fine and clean.
182941607(Berlin, G. Reimer, 1829). 4to. No wrappers. Extracted from ""Journal für die reine und angewandte Mathematik. Hrsg. von A.L. Crelle"", Bd. 4. - Gauss' paper: pp. 232-35. - Abel's papers: pp. 236-278 and pp. 309-348.
182941607Berlin G. Reimer 1829. 4to. No wrappers. Extracted from "Journal für die reine und angewandte Mathematik. Hrsg. von A.L. Crelle" Bd. 4. - Gauss' paper: pp. 232-35. - Abel's papers: pp. 236-278 and pp. 309-348. <br/><br/><em>First printing of probably Gauss' most importent work in physics by presenting his "Principle of Least Action" which states that the motion of a system of points which are influenced both by each other and by outside conditions is such as to maximize the agreement with free motion given the existent constraint. The work is based on his Potential Theory."In it the present paper Gauss stated that the law of least constraint: the motion of a system departs a little as possible from free motion where departure or constraint is measured by the sum of products of masses times the squares of their deviations from the path of free motion. He presented it merely as a new formulation equivalent to the well-known principle of d'Alembert. This work seems obviously related to the old meditations on least aquares but Gauss wrote to Olbers on 31 January 1829 thai it was inspired by studies of capillarity and other physical problems." Kenneth O. May in DSB.The two papers first printings by Abel book-lenghts memoirs are his last works - he died 1829 and they were published after his death - on the theory of "elliptic functions" the discovery of which he shared with Jacobi. In these papers he mentions also the great discoveries published in his memoir 1826 Memoire sur une proprieté générale d'un classe très-etendu de fonctions transcendentes which was not published until 1841.Together with these 3 memoirs is found a paper by Alexander von Humboldt: "Über die bei verschiedenen Völkern üblichen Systeme von Zahlzeichen und über den Ursprung des Stellenwerthes in den indischen Zahlen" 1829. Pp. 205-231. </em> unknown
190542829Leipzig S. Hirzel 1905. No wrappers. Issued in "Jahrbuch der Radioaktivität und Elekronik" 2. Bd. Heft 3. Hahn's paper: pp. 233-264. Enntire issue: pp. 233-262 = entire "Heft 3". Fine and clean. <br/><br/><em>First printing of this paper which is Hahn's Habilitation paper announcung his discovery of a new element in residues from a Ceylon mineral called Thorianite. He later showed that it is an intermediate disintegration product."Because the sample thorianite was small Ramsay proposed that Hahn confirm Marie Curie's determination of the atomic weight of radium by preparing it in some organic compounds thereby greatly increasing the total amount being examined and calculating the atomic weight from the measured molecular weights. Chance sometimes favors the unprepared mind and Hahn who familiarized himself with only the basic of radioactivity followed the prescribed separationss technique and found himself the discovere of a new radioelement: radiothorium. The explanation was that the material given him came from an ore which contained a large percentage of thorium in addition to the radium. Thus upon completion of the chemical procedure not all the activity was confined in the radium-containg fraction; indeed the nes subsyance in the remainder was several hundred thousand times more active than thorium and ultimately yielded the characteristic one.minute halflife of thorium emanation."DSB VI p. 15. - Weeks Discovery of the Elementsp. 308 ff. </em> unknown
1979185339Bonn, 1979. 64 S., 1 Bl. OBr. Umschl. etwas randgebäunt.
190747457Leibzig, Johann Ambrosius Barth, 1907. 8vo. Contemp. hcalf. Spine gilt. Title-and tomelabels with gilt lettering. Slightly rubbed. In ""Annalen der Physik"", Vierte Folge, Band 23. VIII,1000 pp. a. 4 plates. (The entire volume offered). Einstein's paper: pp.371-384. A small stamp on titlepage (Gmelin.Institut.). Internally clean and fine.
190753408Leibzig, Johann Ambrosius Barth, 1907. 8vo. Contemp. hcalf. Spine gilt and with gilt lettering. Slightly rubbed and light wear to spineends. In ""Annalen der Physik"", Vierte Folge, Band 23. VIII,1000 pp. a. 4 plates. (The entire volume offered). Einstein's paper: pp.371-384. Stamps on titlepage (Allgemeine Electricitäts-Gesellschaft a. AEG Forschungsinstitut). Internally clean.
19071512996Leipzig, 1907. 8, 107, (1) S. OBr. Rücken etwas angerissen.
18841041947Marburg, 1884. 44 S. Rückenbr.
190753408Leibzig Johann Ambrosius Barth 1907. 8vo. Contemp. hcalf. Spine gilt and with gilt lettering. Slightly rubbed and light wear to spineends. In "Annalen der Physik" Vierte Folge Band 23. VIII1000 pp. a. 4 plates. The entire volume offered. Einstein's paper: pp.371-384. Stamps on titlepage Allgemeine Electricitäts-Gesellschaft a. AEG Forschungsinstitut. Internally clean. <br/><br/><em>First edition of the first explicit statement of Einstein's energy-mass equation E=mc2.Nearly all descriptions of Einstein's scientific work state that the mass-energy equivalence E=mc2 was first formulated in Einstein's 1907 review paper 'Über das Relativitätsprinzip und die aus demselben gezogenen.' published in 'Jahrbuch der Radioaktivität und Elektronik' see Weil no. 21 and Dictionary of Scientific Biography vol. 4 pp.323 for examples. However in his paper 'Über die von Relativitätsprincip geforderte Trägheit der Energie' the offered paper which predates the former mentioned by six months Einstein gave a clear statement of the mass-energy equivalence E=mc2. See Lanczos: The Einstein Decade pp.149-150 and 153 as well as Volume 2 of 'The Collected Papers of Albert Einstein' pp. 428.Einstein's first paper regarding the relation E=mc2 is his fourth 1905 paper 'Ist die Trägheit eines Körpers von seinem Energieinhalt abhängig'. In this short paper Einstein showed that a body releasing the energy E in the form of radiation will have its mass decreased by E/c2 and concluded that the mass of a body is a measure of its energy content e.g. that all energy has mass. The next time Einstein returns to the subject is in his 1906 paper 'Das Prinzip von der Erhaltung der Schwerpunkts Bewegung und die Trägheit der Energie.'. Here Einstein concluded that one must either ascribe the inertial mass E/c2 to any form of energy E or else give up the fundamental law mechanics regarding conservation of the motion of the center of gravity. Then finally in the 1907 paper 'Über die von Relativitätsprincip geforderte Trägheit der Energie.' the offered paper Einstein makes the decisive step of assuming that all mass has energy. On page 382 Einstein considers the total energy of a moving mass point as the sum of its kinetic energy and its rest energy. In classical mechanics it is most convenient to set the second term to zero but in relativistic mechanics one obtains the simplest expression by setting the rest energy equal to mc2. Einstein then continues to show that this stipulation cannot lead to a contradiction in any relativistic argument. In a footnote on page 382 Einstein states for the first time the equation E=mc2 and mentions that this equation is the expression of the principle of the equivalence of mass and energy - see Volume 2 of 'The Collected Papers of Albert Einstein' pp. 428.The volume contains another paper by Einstein "Bemerkungen zu der Notiz von Hrn. Paul Ehrenfest: "Die Translation deformierbarer Elektronen und der Flächensatz"" pp.206-208. - Weil No. 18. Further with 2 importent papers by Max v. Laue.Collected Works Doc. 45. Weil 19. Boni 19. </em> unknown
190747457Leibzig Johann Ambrosius Barth 1907. 8vo. Contemp. hcalf. Spine gilt. Title-and tomelabels with gilt lettering. Slightly rubbed. In "Annalen der Physik" Vierte Folge Band 23. VIII1000 pp. a. 4 plates. The entire volume offered. Einstein's paper: pp.371-384. A small stamp on titlepage Gmelin.Institut. Internally clean and fine. <br/><br/><em>First edition of the first explicit statement of Einstein's energy-mass equation E=mc2.Nearly all descriptions of Einstein's scientific work state that the mass-energy equivalence E=mc2 was first formulated in Einstein's 1907 review paper 'Über das Relativitätsprinzip und die aus demselben gezogenen.' published in 'Jahrbuch der Radioaktivität und Elektronik' see Weil no. 21 and Dictionary of Scientific Biography vol. 4 pp.323 for examples. However in his paper 'Über die von Relativitätsprincip geforderte Trägheit der Energie' the offered paper which predates the former mentioned by six months Einstein gave a clear statement of the mass-energy equivalence E=mc2. See Lanczos: The Einstein Decade pp.149-150 and 153 as well as Volume 2 of 'The Collected Papers of Albert Einstein' pp. 428.Einstein's first paper regarding the relation E=mc2 is his fourth 1905 paper 'Ist die Trägheit eines Körpers von seinem Energieinhalt abhängig'. In this short paper Einstein showed that a body releasing the energy E in the form of radiation will have its mass decreased by E/c2 and concluded that the mass of a body is a measure of its energy content e.g. that all energy has mass. The next time Einstein returns to the subject is in his 1906 paper 'Das Prinzip von der Erhaltung der Schwerpunkts Bewegung und die Trägheit der Energie.'. Here Einstein concluded that one must either ascribe the inertial mass E/c2 to any form of energy E or else give up the fundamental law mechanics regarding conservation of the motion of the center of gravity. Then finally in the 1907 paper 'Über die von Relativitätsprincip geforderte Trägheit der Energie.' the offered paper Einstein makes the decisive step of assuming that all mass has energy. On page 382 Einstein considers the total energy of a moving mass point as the sum of its kinetic energy and its rest energy. In classical mechanics it is most convenient to set the second term to zero but in relativistic mechanics one obtains the simplest expression by setting the rest energy equal to mc2. Einstein then continues to show that this stipulation cannot lead to a contradiction in any relativistic argument. In a footnote on page 382 Einstein states for the first time the equation E=mc2 and mentions that this equation is the expression of the principle of the equivalence of mass and energy - see Volume 2 of 'The Collected Papers of Albert Einstein' pp. 428.The volume contains another paper by Einstein "Bemerkungen zu der Notiz von Hrn. Paul Ehrenfest: "Die Translation deformierbarer Elektronen und der Flächensatz"" pp.206-208. - Weil No. 18.Collected Works Doc. 45. Weil 19. Boni 19. </em> unknown
Fine German Paperback. Cr. 8vo. (20 x 14 cm). In German. 17, [1] p. Über die Tabakproduktion in der Türkei. Stand: November 1964.
19071041961Greifswald, 1907. Gr.-8vo. 82 S. Rückenbr. (angeschmutzt).
19041016712Halle-Wittenberg, 1904. 66 S. Br.
18911016732Halle - Wittenberg, 1891. 43 S. Br.
192048726Braunschweig, Vieweg & Sohn, 1920. Contemp. Hcloth. Stamp on titlepage. In ""Zeitschrift für Physik"", Bd. 2. IV,478 pp. (Entire volume offered). Bohr's paper: pp. 423-469. A very faint dampstain to right margins.
192048726Braunschweig Vieweg & Sohn 1920. Contemp. Hcloth. Stamp on titlepage. In "Zeitschrift für Physik" Bd. 2. IV478 pp. Entire volume offered. Bohr's paper: pp. 423-469. A very faint dampstain to right margins. <br/><br/><em>First edition of this fundamental paper in which Bohr for the first time gives name to a theory which was for the first time used in his work "The quantum theory of line Spectra" from 1918 but now for the first time called "Korrespondenzprincip" The Principle of Correspondence and explained in the offered paper. The principle was introduced "in order to obtain the necessary relation to the ordinary theory of radiation in the limit of slow vibrations we are therefore led directlyto certain conclusions about the probability of transition between two stationary states in this limit.".The "Principle of Correspondence" is the physical priciple that the behaviour of atomic and other systems should approximate to that predicted by classical physics in certain specific circumstances where quantum effects are expected to be unimportent. Bohr used the principle to explain his theory of the hydrogen atom which among other things successfully predicted many features of the spectrum of light emitted by energetic hydrogen atoms. The principle formed an importent component of the early quantum theory of Bohr Sommerfeld and others.Betty Schultz: 17. </em> hardcover
18841069079Kiel, 1884. (Kopie). Quer-4to. Kart.
1926013916Berlin: Verlag von Gebruder Borntraeger 1926. Very Good condition. Chips to paper label on spine. Bound in black cloth-backed boards. Original printed wraps bound-in. "Mit 6 Textfiguren und 6 Tafeln." This copy is from the library of geologist and author Robert B. Sosman with his small ink-stamp. A geophysicist and physical chemist Robert Browning Sosman received his Ph.D. from the Massachusetts Institute of Technology in 1907 at the age of 26. By 1908 he had joined the Geo-Physical Laboratory of the Carnegie Institution. Dr. Sosman worked at the Geo-Physical Laboratory for 20 years serving 8 years as Assistant Director. During World War I his contributions there were instrumental in establishing America's capacity for manufacturing optical glass. In 1928 he left to join the United States Steel Corporation as Assistant Director of Research. Following his retirement from U.S. Steel in 1947 he became visiting professor of Ceramics at Rutgers University. Dr. Sosman was a past president of the American Ceramic Society. In his honor the Society established The Robert B. Sosman Award "the highest recognition of scientific accomplishment given by the Basic Science Division. in recognition of outstanding achievement in basic science of an area that results in a significant impact to the field of ceramics." Keywords: Marine iron silicates. First Edition 1. Auflage. Hardcover. Very Good condition. 8vo. viii pp365-521 6 plates 12 photos. Verlag von Gebruder Borntraeger Hardcover