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19852090202118202648Fukutakeshoten 1985. Soft Cover. Fine. The book is in fine condition. Fukutakeshoten paperback
2006260417008Teacher's Discovery 2006. hardcover. Used: Very Good. 11x8x2. Includes sealed CDROM. Clean and unmarked. Some minor cosmetic shelf wear. From a private collection. Very good condition. Comes from non smoking home. Teacher's Discovery hardcover
146275Teacher's Discovery. hardcover. Very Good. 11x8x2. Teacher's Discovery hardcover
19532092902137304708Japan Arts and Crafts Company 1953. Soft Cover. Fine. Size: 21cm Japan Arts and Crafts Company paperback
181943320Leipzig Johann Ambrosius Barth 1819. Without wrappers as issued in "Annalen der Physik. Hrsg. von Ludwig Wilhelm Gilbert" Bd. 60 Heft 2 = Jahrgang 1818 zehntes Stück. Pp. 113-218 a. 1 engraved plate map. The entire issue offered Heft 2. Stromeyer's paper pp. 193-210. Clean and fine. <br/><br/><em>First appearance of Strohmeyer's account of his discovery of Cadmium. The history of its discovery was very complicated as some other laid claim to its discovery.Stromeyer was inspector general of apothecaries in Hannover. "In 1817 fulfilling the duties of his office he came across an apothecary's shop in which a bottle labeled zinc oxide contained zinc carbonate. Following this up Stromeyer found himself interested in zinc carbonate which turned yellow on strong heating as though it contained iron as an impurity yet it contained no iron. He traced the yellow to an oxide not of zinc but of a hitherto unknown metal rather like it chemically. He named it cadmium for a zinc ore in which it is usually found accompanying the zinc."Asimov.Weeks "Discovery of the Elements" pp. 135-39. </em> unknown
0260052701.Gpaperback. Good. Access codes and supplements are not guaranteed with used items. May be an ex-library book. paperback
184245440Kjöbenhavn Bianco Luno 1842 a. 1845. 4to. Bound in one contemp. halfcalf spine gilt. A small tear to backhinge at lower compartment of spine. IV76 pp. and 3 double-page folded lithographed plates with many figs. XIV88 pp. and 2 double-apge lithographed plates with many figs. Light browning to the last leaves of the second work. <br/><br/><em>The scarce first edition of the work in which Steenstrup describes his discovery of the principle of 'ALTERNATION OF GENERATIONS'' sexual and asexual in plants and animals. "Steenstrup showed that certain animals produce offspring which never resemble them but which on the other hand bring forth progeny which return in form and nature to their grandparents or more distant ancestors." Garrison & Morton No 217. A German translation was published the same year and an English in 1845. Norman 2009 German translation. "The second major publication - the first dealing with geology - of 1842 was "Om Forplantning og Udvikling gjennem vexlende Generationsrækker." the work offered Steenstrup's comprehensive presentation of the form of reproduction that he called 'alternation of generations' that is the alternation of asexual and sexual reproduction or metagenesis. This phenomenon had previously been described by Chamisso but Steenstrup included a greater number of observations based on a significantly wider range of subjects and provided an importent chapter on its meaning. Steenstrup's growing reputation won him an appointment as professor of zoology at the University of Copenhagen where he tought from 1846 until 1885."DSB XII p. 9. </em> unknown
2005Q-1572931825Discovery House Publishers 2005-01-01. Paperback. New. New. In shrink wrap. Looks like an interesting title! Discovery House Publishers paperback
1980KOS02300819TBD 1980. Soft Cover. Fine. KOS02300819 TBD paperback
2090502113702419Not Available N.A. Soft Cover. Fine. The book is in fine condition. Not Available paperback
183149604Paris Crochard 1831. Contemp. hcloth. Some scattered brownspots. "Annales de Chimie et de Physique" 2. Series Tome 48. 448 pp. 1 engraved plate. Entire volume offered. Soubeiran's paper: pp. 113-157. Scattered brownspots. <br/><br/><em>First appearance of an importent paper in chemistry and medicine as it for the first time relates the finding of Chloroform which some years later was proved to have anaesthetic effects and was introduced in chirurgy in 1848 by Simpson.Justus von Liebig Souberain and Guthrie independently discovered Chloroform in 1831 but Souberain was the first to publish his results. Garrison & Morton No. 1851. - Gedeon "Science and Technology in Medicine" 36.7.The volume contains other notable papers by LIEBIG DUMAS DUTROCHET WÖHLER LECANU BECQUEREL etc. </em> hardcover
183143365Paris Crochard 1831. No wrappers as extracted from "Annales de Chimie et de Physique" 2. Series Tome 48. Titlepage to vol. 48. Pp. 113-157. A few brownspots but fine. Small stamps on verso of titlepage. <br/><br/><em>First appearance of an importent paper in chemistry and medicine as it for the first time relates the finding of Chloroform which some years later was proved to have anaesthetic effects and was introduced in chirurgy in 1848 by Simpson.Justus von Liebig Souberain and Guthrie independently discovered Chloroform in 1831 but Souberain was the first to publish his results. - Garrison & Morton No. 1851. - Gedeon "Science and Technology in Medicine" 36.7. </em> unknown
184748815Paris Bachelier1847. 4to. No wrappers. In: "Comptes Rendus Hebdomadaires des Séances de L'Academie des Sciences" Tome XXIV No. 7. Pp. 209- 252. Entire issue offered. Sobrero's paper: pp. 247-248. Clean and fine. <br/><br/><em>First appearance of the paper in which Sobrero announced his discovery of nitroglycerin."When I think of all the victims killed during nitroglycerine explosions and the terrible havoc that has been wreaked which in all probability will continue to occur in the future I am almost ashamed to admit to be its discoverer." Sobrero"Nitroglycerin was synthesized by the chemist Ascagne Sobrero in the middle of the nineteenth century. When he tasted it as all good nineteenth century chemists did when they discovered a new compound it gave him what he called a migraine because of its vasodilatory effect which was later harnessed in the treatment of angina by William Murrell 1879 following the experience of a distinguished British clinician Lauder Brunton using amyl nitrite 1867 Later in the nineteenth century Alfred Nobel discovered how to stabilize nitroglycerin using kieselguhr diatomite clay; this led to highly successful industrial applications of dynamite and created the fortune that eventually funded the eponymous prizes. For medical purposes nitroglycerin was subsequently renamed glyceryl trinitrate to hide the fact that it was literally dynamite as well as metaphorically." </em> unknown
19442092902137303000Japanese art publication 1944. Soft Cover. Fine. Size: 26cm Japanese art publication paperback
183149631Paris Crochard 1831. No wrappers. In: "Annales de Chimie et de Physique Par MM. Gay-Lussac et Arago." tome 46 Cahier 1. Pp. 5-112. Entire issue offered. Sefström's paper: pp. 105-111. <br/><br/><em>First printing of the paper in which Sefström announced his discovery of a new element in iron from the Taberg mine in Småland. He named it Vanadium from the goddess Vanadis.Parkinson "Breakthroughs" 1831 C.The discovery and isolation of Vanadium has a long story to tell. In reality it was found by del Rio in 1801 he named it Erythronium but upon further study he decided that he was mistaken as his further studies showed that it was made up of a basic lead chromate. </em> unknown
183643417Leipzig Johann Ambrosius Barth 1836. Without wrappers. In "Annalen der Physik und Chemie. Hrsg. von J.C. Poggendorff" Band 38 No. 6 = Zweyte Stück. Titlepage to Vol. 38. Pp. 241-450 a. 3 engraved plates.Entire issue offered Heft No. 6 Bd. 38. Schwann's paper: pp. 358-364. Clean and fine. <br/><br/><em>First appearance of an importent paper in the history of biology in which Schwann describes his discovery and isolation of pepsin the substance in the stomach that aids digestion of eggwhite. It is the FIRST KNOWN ANIMAL ENZYME. The paper appeared at the same time in "Archiv für Anatomie Physiologie und Wissenschaftliches Medicin"Theodor Schwann 1810-1882 was a great German physiologist pathologist and experimenter. One of the founders of the cell doctrine and of the idea of the living nature of yeast. Born at Neuss near Düsseldorff. A catholic educated in the Jesuit Gymnasium in Cologne. Intended for the church but took to medicine. He was a pupil of Johannes Müller and a collegueand lifelong friend of J. Henle the anatomist. In Berlin Schwann was Johannes Müller's assistent for five years and it was then that he discovered pepsin in 1836 the paper offered.Parkinson "Breakthroughs" 1836 B.The issue contains other importent papers by Seebeck Matteucci Marchand G. Magnus "Ueber die Wirkung des Ankers auf Elektromagnete und Stahlmagnete" Schönbein J. Müller "Ueber die Structur und die chemischen Eigenschaften der thierischen Bestandtheile der Knorpel und Knochen" Nachtrag. Forchhammer "Der kopaische See und seine unterirdischen Abzugskanäle." with a map. </em> unknown
189843857Berlin J.A. Barth 1898. No wrappers. In "Annalen der Physik" Neue Folge Band 65 No 5. Pp. 1-240. Entire issue offered No.5. Titlepage to vol. 65. Stamp on titlepage. Schmidt's paper: pp. 141-151 textillustr. A tear to inner lower corners of pp. 24-32. not affecting Schmidt's paper. Clean and fine. <br/><br/><em>First printing of Schmidt's full exposition in which he describes his discovery of the radioactivity of Thorium. Schmidt and Marie Curie independently demonstrated the radioactive quality but Schmidt's demonstration took place a few months before Curie's. The discovery was announced but not described in full in a short message published in "Verhandl. d. Phys. Gesellsch. zu Berlin 1898."Schmidt made his discovery while examining "many elements and compounds" in an effeort to determine whether any of the rays that were emitted bore a resemblance to those that Henri becquerel had found emerging from uranium and uranium compounds. He located only one such element thorium and immediately conducted absorption ionization reflection refradction and poklarization studies to determine the characteristics of its rays. Having combined a misinterpretation of Becquerel's with one of his own Schmidt concluded that thorium rays most resembled Röntgen rays - a conclusion that soon required revisoln in view of the researches of Marie Curie and Ernest Rutherford."DSB XII p. 191. </em> unknown
191441545London 1914. No wrappers but stiched. All three papers contained in: "Philosophical Magazine" Sixth Series Vol. 27. No. 159. March 1914. The whole issue issue offered =no. 159: pp. 397-540 and 2 plates.Rutherford's paper.pp. 488-498. - Darwin's paper: pp. 499-506. - Bohr's paper: pp. 506-523. All clean and fine. <br/><br/><em>First edition and first printing of all three papers. Rutherford in this paper for the first time identifies the hydrogen nucleus and called it the 'positive electron'. He later called it 'the proton' . In his definitive paper of 1911 he estimated the radius of the nucleus a hundred thousand times smaller than that of an atom. Darwin in his paper offered here gave a more precise measure.In the first lines of the paper Rutherford outlines the content "The present paper and and the accompanying paper by Mr. C. Darwin the second paper offered here deal with certain points in connection with the "nucleus" theory of the atom which were purposely omitted in my first communication on that subject Phil. Mag. May 1911. A brief account is given of the later investigations which have been made to test the theory and of the deductions which can be drawn from them. At the same time a brief statement is given of recent observations on the passage of alpha particles through hydrogen which throw importent light on the dimensions of the nucleus." - Rutherford had studies alpha-particles intensely in the years before 1914 and proved quite conclusively that the individual particle was a helium atom with its electrons removed. The alpha particles were like the positive rays that had been discovered by Goldstein 1886 and now in 1914 the paper offered Rutherford suggested that the simplest positive rays must be those obtained from the hydrogen and that these must be the fundamentall positively-charged particle. He names it a 'positive electron'.Darwin in the paper offered "concluded from the known data:"No force proportional to some power of the distance other than the inverse square can give the dependence the Rutherford scattering cross section on the initial velocity" and he then calculated the distance of closest alpha-particle-nucleus approach.The paper by Niels Bohr relates to "The Stark effect". In 1913 appeared "an importent new discovery: when atomic hydrogen is exposed to a static electrical field its spectral lines split the amount of splitting being proportional to thefield strenght the linear Stark effect. After Rutherford read this news in "Nature" he at once wrote to Bohr:'I think it is rather up to you at the present time to write something on.electric effects.'" A. Pais. Bohrs paper on The Stark effect appeared in 1914 the paper offered here. - Rosenfeld. Niels Bohr' publications No. 10. </em> unknown
ria9780891183945_inpPaperback / softback. New. New Book; Fast Shipping from UK; Not signed; Not First Edition; N/A paperback
183445159Leipzig Johann Ambrosius Barth 1834. Without wrappers. Extracted from "Annalen der Physik und Chemie. Hrsg.von Poggendorff" Bd. 31 No 5. Pp. 65-80. <br/><br/><em>First printing of the paper in which Runge discloses his discovery of carbolic acid or phenol and how he prepared it by distilling coal.Parkinson "Breakthroughs" 1834 C. - Partington IV pp. 183-84. </em> unknown
180545516Paris Chez Bernard AN XIII 1805. No wrappers. In: "Annales de Chimie ou Recueil de Mémoires." Vol. 55 Cahier 2 30 Thermidor an XIII. Pp. 113-224 entire issue offered. Htitle to vol. 55 present. Robiquet's paper: pp. 152-171. <br/><br/><em>First appearance of Robiquet's first chemical paper in which he relates his discovery of asparagine by analysis of asparagus juice the first amino acid to be discovered. The following year he made the first isolation of this amino acid together with Vaguelin. Pierre Jean Robiquet was a French chemist who laid founding work in identifying amino acids the fundamental bricks of proteins through recognizing the first of them asparagin in 1806 in the take up of the industry of industrial dyes with the identification of alizarin in 1826 and in the emergence of modern medications through the identification of codeine in 1832 a powerful molecule today of widespread use with analgesic and antidiarrheal properties. </em> unknown
180143492Halle Rengerschen Buchhandlung 1801. Without wrappers as published in "Annalen der Physik. Herausgegeben von Ludwig Wilhelm Gilbert" Bd. 7 Viertes Stück. The entire issue offered =Heft 4. Pp. 387-528. Ritter's announcement p. 525. With titlepage to volume 7. Clean and fine. Titlepage a bit shavedin inner margin. <br/><br/><em>First printing of Ritter's announcement of his discovery of ultraviolet light in a halfpage letter addressed to Gilbert's Annalen. With that discovery it became clear that visible light represents no more than a fraction of a continous spectrum.A year earlier in 1800 William Herschel discovered infrared light. This was the first time that a form of light beyond visible light had been detected. After hearing about Herschel's discovery of an invisible form of light beyond the red portion of the spectrum Ritter decided to conduct experiments to determine if invisible light existed beyond the violet end of the spectrum as well. He had heard that blue light caused a greater reaction in silver chloride than red light did. Ritter decided to measure the rate at which silver chloride reacted to the different colors of light. He directed sunlight through a glass prism to create a spectrum. He then placed silver chloride in each color of the spectrum and found that it showed little change in the red part of the spectrum but darkened toward the violet end of the spectrum. Johann Ritter then decided to place silver chloride in the area just beyond the violet end of the spectrum in a region where no sunlight was visible. To his amazement this region showed the most intense reaction of all. This showed for the first time that an invisible form of light existed beyond the violet end of the visible spectrum. This new type of light which Ritter called Chemical Rays later became known as ultraviolet light or ultraviolet radiation the word ultra means beyond. - Parkinson Breakthroughs: 1801 P. </em> unknown
180343638Halle Rengerschen Buchhandlung 1803. Without wrappers as extracted from "Annalen der Physik. Herausgegeben von Ludwig Wilhelm Gilbert" Jahrgang 1802 Bd. 12 Zwölftes Stück. Pp. 409-416. Titlepage to vol. 12. <br/><br/><em>This is Ritter's first expositon of his discovery of ultraviolet light. It was announced the year before in a halfpage letter addressed to Gilbert's Annalen and printed in the Annalen. With that discovery it became clear that visible light represents no more than a fraction of a continous spectrum.A year earlier in 1800 William Herschel discovered infrared light. This was the first time that a form of light beyond visible light had been detected. After hearing about Herschel's discovery of an invisible form of light beyond the red portion of the spectrum Ritter decided to conduct experiments to determine if invisible light existed beyond the violet end of the spectrum as well. He had heard that blue light caused a greater reaction in silver chloride than red light did. Ritter decided to measure the rate at which silver chloride reacted to the different colors of light. He directed sunlight through a glass prism to create a spectrum. He then placed silver chloride in each color of the spectrum and found that it showed little change in the red part of the spectrum but darkened toward the violet end of the spectrum. Johann Ritter then decided to place silver chloride in the area just beyond the violet end of the spectrum in a region where no sunlight was visible. To his amazement this region showed the most intense reaction of all. This showed for the first time that an invisible form of light existed beyond the violet end of the visible spectrum. This new type of light which Ritter called Chemical Rays later became known as ultraviolet light or ultraviolet radiation the word ultra means beyond. </em> unknown
2007AME_9781588296726Humana Press 2007. 1st. Hardcover. New/New. Humana Press hardcover
189542221London Harrison and Sons 1895. 4to. No wrappers as extracted from "Philosophical Transactions" Vol. 186 - I Series A. Pp. 187-241 a. 8 textillustrations apparatus. Fine and clean. <br/><br/><em>First printing of this importent paper in the history of chemistry Lord Rayleigh's most famous discovery announcing the discovery of this new gas the first finding of one of the rare gases inert gases having unusual properties and forming a distinct group in the periodic table and all with zero valency."The original paper in the "Philosophical Transactions" will undoubtly rank as a classic the investigation having been a particularly brilliant ine." Ernst von Meyer in History of Chemistry. For this discovery Lord Rayleigh and W. Ramsay received the Nobel Prize 1904.After having made several measuring of the densities of gases "Rayleigh came across a curious puzzle. With oxygen he always obtained the same density regardless of how the oxygen might be produced whether from one particular compound from a second compound or from the air. The situation was different with nitrogen. The nitrogen he obtained from air constantly showed a slightly higher density than the nitrogen he obtained from any of various compounds. Rayleigh could think of several ways in which the nitrogen obtained from air might be contaminated but none of the possibilities checked out experimentally. He was so frustrated that he went so far as to write to the journal "Nature" asking for suggestions. Ramsay a brilliant Scottish chemist asked permission to tackle the problem and received it. The upshot was that a new gas somewhat denser that nitrogen was discovered to exist in the atmosphere. It was named argon and it was the first of a series of rare gases of unusual properties whose existence had never been suspected."Asimow.Dibner Heralds of Science No. 50 - Neville Historical Chemical Library vol. II p.358. </em> unknown