93 résultats
180143599Halle Rengerschen Buchhandlung 1801. Without wrappers as published in "Annalen der Physik. Herausgegeben von Ludwig Wilhelm Gilbert" Bd. 7 Zweites Stück. The entire issue offered =Heft 2. Pp. 137-264 a. 2 folded engraved plates. Herschels papers: pp. 137-156. The plate depicts Herschel's experimental arrangements. <br/><br/><em>First appearance in German of Herschel's epochal announcement of his discovery of infrared light in 1800. This was the first time that a form of light beyond visible light had been detected. The paper offered is the German translation of the main parts of Herschel's paper "An Investigation of the Powers of Prismatic Colours to Heat and Illuminate Objects"."In 1800 he tested various portions of the sun's spectrum by thermometer to see if he could find interesting differences in the amount of heat the different colors delivered. He did but in a rather unexpected way for he found that the temperature rise was highest in no color at all at a spot beyond the red end of the spectrum. He concluded that the sunlight contained invisible light beyond the red. This is now called infrared radiation. The following year Ritter was to extend the visible spectrum in the other direction."Asimov.Parkinson "Breakthroughs" 1800 P. </em> unknown
187947273Paris Gauthier-Villars 1879. 4to. No wrappers. In: "Comptes Rendus Hebdomadaires des Séances de L'Academie des Sciences" Tome 88 No 12. Pp. 625- 676. Entire issue offered. Nilson's papers: pp. 642-645 a. 645-648. First leaf with a tear to right margin no loss of paper. <br/><br/><em>First apperance of the papers in which Nilson describes his discovery of a new element and its properties and naming it Scandium. It was the second new element found after Mendeleev's prediction of its existence as "Eka-Boron"."Mendeléeff had predicted that another element which he called eka-boron and which he said would have an atomic weight between 40 calcium and 48 titanium would some day be revealed. It was discovered in 1879 by Lars Fredrik Nilson. Nilson extracted 63 grams of the rare earth erbia from gadolinite and euxenite and converted it into the nitrate. Upon decomposing this salt by heat as Marignac had done he obtained some very pure ytterbia and to his great surprise an earth that was unknown to him.Upon thoroughly investigating this new earth he found that it contained an element whose properties concided almost exactly with those Mendeléef had predicted for ekaboron. Nilson called it scandium in honour of his fatherland."Weeks "Discovery of the Elements" pp. 219-20.Parkinson "Breakthroughs" 1879 C. </em> unknown
182643853Paris Crochard 1826. Without wrappers. In: "Annales de Chimie et de Physique par Gay-Lussac et Arago" tome 32 Sec. Series Cahier 4. Pp. 337-443 a. 1 fodled engraved plate. The entire issue offerd. Balard's paper: pp. 337-84. <br/><br/><em>First printing of Balard's famous memoire in which he records his discovery of the new element Bromine le brôme. While he was studying the flora of a salt marsh he notized a deposit of sodium saulfate which had crystallized out in a pan containing mother liquer from common salts. "In an attempt to find a use for the waste liquers he performed a number of experiments and notized that when certain reagents were added the mother liquer bacame brown. His investigation of this phenomenon.ked to the remarkable discovery.Weeks p. 264."The discovery of a new chemical element by a young and obscure provincial pharmacist caused a sensation in Paris. Balard's achievemnt was recognized by the Academie des Sciences and he was awarded a medal by the Royal Society of London."DSB I p. 416."The discovery of bromine is a very importent acquisition to chemistry and gives M. Balrad honorable rank inthe career of the sciences. We are of the opinion that this young chemist is every way worthy of the encouragement of the Academy and we have the honour to propose that his memoir shall be printed in the "Recueil des Savants Étrangers" The report from the French Academy signed by Vaugelin Thenard and Gay-Lussac. </em> unknown
189844238London Taylor and Francis 1898 No wrappers. In "Proceedings of the Royal Society of London." Vol.63 Nos. 399-400 both issues offered. Pp. 373-480 a. 5 plates. Ransay & Travers' paper: pp. 405-408. <br/><br/><em>First appearance of the paper in which Ramsay and Travers announced their discovery of a new element which they named "krypton" meaning hidden."Dr. William Hampson presented them Ransay & Travers with about a liter of liquid air which they used not for liquefying the argon but for obstaining sufficient skill in manipulation so that they would not risk loosing their precious fifteen liter of argon.The residue left after most of the liquid air had boliled away consisted largly of oxygen and nitrogen which Ramsay and Travers temoved with red-hot copper and magnesium. .they then examined the twenty-five cibic centimeters of residual gas and when they found it to be inerst they immediately placedit in a Pl'ucker tube connected to and induction coil and observed its spectrum. There was a bright yelælow line with a greener tint than that of the helium line and a brilliant green line that did nor coincide with any line of argon helium mercury or hydrogen. They discoverede this gas on 30 May 1898 and named it 'krypton'.they found that it belonged between bromine and rubidium in the periodic table and so great was their excitement that the younger chemist almost forgot about his examination for doctor of sciwence which had been schedules for the next day."Weeks p. 267.Parkinson "Breakthroughs" 1898 C. </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
180442469London Bulwer and Co. 1804. 4to. Without wrappers as extracted from "Philosophical Transactions of the Royal Society of London." Year 1804-Part II. Pp. 419-430. Clean and fine. <br/><br/><em>First appearance of the paper in which Wollaston announced his discovery of the metallic element Rhodium."Dr. Wollaston dissolved a portion of crude platinum in qgua regia and neutralized the excess acid with caustic soda. He then added salammoniac to precipitate the platinum as ammonium chloroplatinate and mercurous cyanide to precipitate the palladium as palladium cyanide. After filteringoff the precipitate he decomposed the excess mercurous cyanide inthe filtarate by adding hydrochloric acid and evaporating to dryness. When he washed the residue with alcohol everything dissolved except a beautiful dark red powder which proved to be a double chloride of sodium and a new metal which because of the rose color of its salts Dr. Wollaston named 'Rhodium'. He found that the sodium rhodium chloride could be easely reduced by heating it in a current of hydrogen and that after the sodium chloride had been washed out the rhodium remained as a metallic powder. he also succeeded in obtaining a rhodium button."Weeks: Discovery of the Elements. p. 104-05. </em> unknown
182659047Paris Crochard 1826. Contemp. hcloth. Gilt lettering on spine. In: "Annales de Chimie et de Physique par Gay-Lussac et Arago" tome 32. 448 pp. 3 folded engraved plates. Balard's paper: pp. 337-84. Entire volume offered with original memoirs by Savart Berzelius Humboldt Arago Poisson Liebig Dumas et al. <br/><br/><em>First printing of Balard's famous memoire in which he records his discovery of the new element Bromine le brôme. While he was studying the flora of a salt marsh he notized a deposit of sodium saulfate which had crystallized out in a pan containing mother liquer from common salts. "In an attempt to find a use for the waste liquers he performed a number of experiments and notized that when certain reagents were added the mother liquer bacame brown. His investigation of this phenomenon.ked to the remarkable discovery.Weeks p. 264. "The discovery of a new chemical element by a young and obscure provincial pharmacist caused a sensation in Paris. Balard's achievemnt was recognized by the Academie des Sciences and he was awarded a medal by the Royal Society of London."DSB I p. 416. "The discovery of bromine is a very importent acquisition to chemistry and gives M. Balrad honorable rank inthe career of the sciences. We are of the opinion that this young chemist is every way worthy of the encouragement of the Academy and we have the honour to propose that his memoir shall be printed in the "Recueil des Savants Étrangers" The report from the French Academy signed by Vaugelin Thenard and Gay-Lussac. </em> hardcover
187449327Leipzig Johann Ambrosius Barth 1874. 8vo. Contemp. hcalf. 5 raised bands gilt spine and gilt lettering to spine. A few scratches to spine. Small stamp on verso of first -and general- titlepage. In: "Annalen der Physik und Chemie. Hrsg. von J.C. Poggendorff" Sechste Reihe Bd. 3 = Poggendorff Bd. 153. X636 pp. 4 plates. Entire volume offered. Braun's paper: pp. 556-563. <br/><br/><em>First printing of Brown's importent paper in which he described his discovery of a semiconductor diode noting that electrical currents flows freely in only one direction at the contact between a metal point and a galena crystal."In 1874 Braun published the results of his research on mineral metal sulfides. He found that these crystals conducted electric currents in only one direction. This information was important in electrical research and in measuring another property of substances the electrical conductivity but Braun’s discovery did not have immediate practical application. In the early twentieth century the principle that Braun had discovered was employed in crystal radio receivers."DSB.The Nobel Prize in Physics 1909 was awarded jointly to Guglielmo Marconi and Karl Ferdinand Braun "in recognition of their contributions to the development of wireless telegraphy". </em> hardcover
181046377Paris J. Klostermann 1810. Contemp. hcalf. Spine gilt. Slightly rubbed. A few scratches to binding. Small stamps on verso of titlepage.In: "Annales de Chimie ou Recueil de Mémoires concernant la Chemie" Tome 75. 336 pp. a. 2 folded engraved plates. Some scattered brownspots. The papers: pp. 27-77 129-175 256-263 264-273 274-289 a. 290-316. <br/><br/><em>First French version of Davy's "The Bakerian Lecture for 1809. On some new Electrochemical Researches on various Objects particularly the metallic Bodies from the Alkalies and Earth and on some Combinations of Hydrogene. Read November 16 1809." together with the controversy papers by Davy and Gay-Lussac & Thenard."Mr. Davy having from the commencement of his electro-chemical researches communicated the several steps of his progress to the Society The Royal Society takes the present opportunity of reporting the results of his further inquiries under four principal heads. First on the nature of the metals of the fixed alkalis. Second on the nature of Hydrogen and composition of ammonia. Thirdly on the metals of the earth; and Fourthly he makes a comparison between the antiphlogistic doctrine and a modified phlogistic hypothesis."Abstract. He further gives arguments for considering potassium and sodium which he discovered in 1808 as a element.""Gay-Lussac had a slight rivalry between himself and the creation scientist Sir Humphry Davy. Davy was chemically preparing Potassium and Sodium through an electrical current and this made Gay-Lussac and Thénard envious of his success. They too decided to perform the same task but they had no battery at their disposal as Davy had so they had to form another way to chemically prepare the two elements. In 1808 they used a red-hot iron fused to potash the water-soluble form of a manufactured salt containing potassium to perform this task a method that Davy admitted had its advantageous qualities. Gay-Lussac and Thénard were successful in preparing Potassium and continued to make a full analysis of its chemical properties and began to use it for their own experiments. In 1809 Davy performed the same task using it to reduce Boron in Boracic acid." </em> unknown
187748136Paris Gauthier-Villars 1877. 4to. No wrappers. In: "Comptes Rendus Hebdomadaires des Séances de L'Academie des Sciences" Tome 85 No 3. Pp. 101- 168. Entire issue offered. Pasteur & Joubert's paper: pp. 101- 115. <br/><br/><em>First appearance of one of the founding papers in the realm of antibiotics being the discovery of "Vibrion septique" Cl. septicum the first pathogenic anaerobe to be found. "Pasteur and Joubert were probably the first to realize the practical implications of antibiosis. They noted the antagonism between Bacillus anthracis and other bacteria cultures in the paper offered"Garrison & Morton: No. 1932.1 and 2490. </em> unknown
183947232Paris Bachelier 1839. 4to. No wrappers. In: "Comptes Rendus Hebdomadaires des Séances de L'Academie des Sciences" Tome VIII No 13. Pp. 459- 504. Entire issue offered. Piria's paper: pp. 479-485. <br/><br/><em>First apperance of a main paper in pharmacology describing the discovery of Salicylic acid compound giving it the empirical formula C7H6O3. It is the most successful drug in history. A trillion tablets are consumed every year. Used to treat everything from headaches to heart disease from rheumatism to cancer - scientists are still struggling to understand all its qualities. But aspirin can truly claim the title of wonder drug.Raffaele Piria 20 August 1814 - 18 July 1865 an Italian chemist from Scilla who converted the substance Salicin into a sugar and a second component which on oxidation becomes salicylic acid a major component of an analgesic drug Aspirin acetylsalicylic acid.Garrison & Morton No 1857. </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
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
182646031Leipzig Johann Ambrosius Barth 1826. Contemp. hcalf. Gilt spine. A few scratches to spine. In "Annalen der Physik und Chemie. Hrsg.von Poggendorff" Bd. 8. 10526 pp. and 3 folded engraved plates. Small stamps onverso of titlepage. Entire volume offered. Unverdorben's paper: pp. 253-265 397-410 477-487. Clean and fine. <br/><br/><em>First appearance of the paper in which Unverdorben describes the method by which he discovered Aniline which became so importent in the manufacture of dyes plastics and pharmaceuticals. "Aniline from the Portugese anil applied to indigo and derived from the Arabic an-nil the blue substance was first obtained by Unverdorben by heating indigo and was given the name 'crystalline'. In 1841 Carl Julius von Fritzsche 1807-71 an assistant to Mitscherlich and later a member of the Academy of Sciences in St. petersburg obtained the same compound from anthranilic acid which was produced by the action of caustioc alkalis on indigo and called it 'aniline'. in 1843 Hofmann showed that the three substances crystalline aniline and benzidam were identical with the base isolated from coal tar."Findlay "A Hundred years of Chemistry" p. 134.Parkinson "Breakthroughs" 1826 C.The volume contains other importent papers Antoine Jerome Balard "Ueber eine besondere Substanz im Meereswasser" in which he describes his discovery of the element BROMINE first German edition pp. 114-124 a. pp. 319-336. Parkinson "Breakthroughs" 1826 C. And Eilhard Mitscherlich "Ueber eine neue Klasse von Krystallformen" pp. 427-442. </em> unknown
190048207Paris Gauthier-Villars 1900. 4to. No wrappers. In: "Comptes Rendus Hebdomadaires des Séances de L'Academie des Sciences" Tome 130 No 15 a. No 18. Pp. 962- 1044 a. pp. 1145- 1220. Entire issues offered. Stamp on first pages. A few tears to margins. Poor paperquality fragile. Villard's papers: pp. 1010-1012 a. 1178-1182 textillustrations. <br/><br/><em>First apperance of Villard's two papers in which he announced and described the discovery of a new type of radiation more powerfull and penetrating than alpha-and beta rays. The new type of rays was named by Rutherford as gammarays."His Villardexperiments in radioactivity led to the unexpected discovery of gamma rays in 1900. Villard recognized them as being different from x rays because the gamma rays had a much greater penetrating depth. He had discovered they were emitted from radioactive substances and were not affected by electric or magnetic fields. These came to be called gamma rays by another scientist Ernest Rutherford. It wasn't until 1914 that Rutherford showed that they were a form of electromagnetic EM like light only with a much shorter wavelength than x rays. Now we know that gamma rays are a form of EM radiation similar to x rays. Gamma rays tend to have a higher energy and a shorter wavelength than x rays do. However the dividing line between these two forms of radiation is not clearly defined. Scientists typically apply the term gamma ray to EM radiation with energies above several hundred thousand electron volts." Hps - Healt Physics Society. - See Sigmund Brandt "The Harevst of a Century" Episode 6 p. 24 ff.The issues contains other importent papers HENRI BECQUEREL "Note sur la transmission du rayonnement du radium au travers des corps" pp. 979-984 and "Sur la transparance de l'aluminium pour le rayonnement du radium" pp. 1154-57. P. CURIE et G. SAGNAC "Électrisation négative des rayons secondaires produits au moyen des rayons de Röntgen" pp. 1013-1016. </em> unknown
183748086Paris Crochard et Comp. 1837. Orig. printed wrappers. No backstrip. In: "Annales de Chimie et de Physique Par MM. Gay-Lussac et Arago." tome 64 Cahier 2 Fevrier 1837. Pp. 113-224. Entire issue offered with printed wrappers. Wöhler a. Liebig's papers: pp. 185-209 a. pp. 209-217. <br/><br/><em>First appearance of this classic paper in organic chemistry in which Wöhler and Liebig showed how Amygdalin could be decomposed by a vegetable emulsion the first example of a glycoside. The papers were issued at the same time in "Annalen der Physik und Chemie"."The conclusions which you have drawn from the investigation of bitter-almond oil" wrote Berzelius to Liebig and Wöhler "are certainly the most importent which have so far been reached in the domain of vegetable chemistry and give promise of shedding an unexpected light over this part of the science.The facts which you have set forth inspire such reflections that they may be regarded as the dawn of a new day in vegetable chemistry."Berzelius-Wöhler Briefwechsel."During the years that Liebig was preoccupied with the ether theory and with organic acids he also carried out two importent investigations with Wöhler. In october 1836 Wöhler wrote that he had discovered a way to transform amygdalin to oil of bitter almonds and hydrocyanid acis by distilling it with manganese and sulfuric acid and he invited Liebig to join in pursuing the topic. Two days later he made a more remarkable discovery. It had occurred to him that perhaps thetransformation of amygdalin could be effected by the albumin in the almonds in a manner similar to the action of yeast in sugar.Wöhler suspected that the decomposition was an example of what Berzelius had recently defined as catalysis. Liebig and Wöhler then divided up the detailed examination of the properties and composition of amygdalin. They precipitated from the emulsion of almonds a substance which when dissolved retain its action. They named the active substance "emulsion". Its effectiveness in very small quantities confirmed that it acted like yeast."DSB VIII p. 342. </em> unknown
183743739Leipzig Johann Ambrosius Barth 1837. Without wrappers as issued in "Annalen der Physik und Chemie. Hrsg.von Poggendorff" Bd. 41 Zweites Stück. Entire issue No 6 offered. Titlepage to vol. 41. Pp. 225-448 a. 2 folded engraved plates. Wöhler & Liebig's papers: pp. 345-366 pp. 366-374 a. pp. 393-397. Clean and fine. <br/><br/><em>First appearance of this classic paper in organic chemistry in which Wöhler and Liebig showed how Amygdalin could be decomposed by a vegetable emulsion the first example of a glycoside."The conclusions which you have drawn from the investigation of bitter-almond oil" wrote Berzelius to Liebig and Wöhler "are certainly the most importent which have so far been reached in the domain of vegetable chemistry and give promise of shedding an unexpected light over this part of the science.The facts which you have set forth inspire such reflections that they may be regarded as the dawn of a new day in vegetable chemistry."Berzelius-Wöhler Briefwechsel."During the years that Liebig was preoccupied with the ether theory and with organic acids he also carried out two importent investigations with Wöhler. In october 1836 Wöhler wrote that he had discovered a way to transform amygdalin to oil of bitter almonds and hydrocyanid acis by distilling it with manganese and sulfuric acid and he invited Liebig to join in pursuing the topic. Two days later he made a more remarkable discovery. It had occurred to him that perhaps thetransformation of amygdalin could be effected by the albumin in the almonds in a manner similar to the action of yeast in sugar.Wöhler suspected that the decomposition was an example of what Berzelius had recently defined as catalysis. Liebig and Wöhler then divided up the detailed examination of the properties and composition of amygdalin. They precipitated from the emulsion of almonds a substance which when dissolved retain its action. They named the active substance "emulsion". Its effectiveness in very small quantities confirmed that it acted like yeast."DSB VIII p. 342. </em> unknown
185545031Paris Victor Masson 1855. 8vo. Without wrappers. In 'Annales de Chimie et de Physique' Series 3 tome 30 December-issue. With halftitle to vol. 30. Pp. 385-508 a. 1 plate. Entire issue offered. Wurtz's paper: pp. 443-506. <br/><br/><em>First appearance of the entire memoir in which Wurtz describes his outstanding discovery of Liebig’s prediction that there might be organic compounds analogous to ammonia and derivable from it by the replacement of hydrogen - the amines. The discovery was announced in 1849 and a small extract was printed in "Comptes rendu" 4 pp. The offered paper is the memoir in full.Wurtz is most noted for his investigation of glycols and for his discovery of the amines. The latter discovery in 1849 the paper offered was very significant at the time for ot suggested the possibility of a new type the ammonia type which helped to explain the behaviour of nitrogenous compounds. Leicester & Klickstein "A Source Book." pp. 362-63. - Parkinson "Breakthroughs" 1849 C.Charles Adolphe Wurtz was born at Strasbourg 1817. For many years he was Professor of Chemistry at the Ecole de Médicine and at Sorbonne in Paris. He was known not only for his researches in organic chemistry but also for his many literary works. He was editor of a Dictionnaire de Chemie Pure et Appliquée and after 1868 one of the editors of the Annalen der Chemie et de Physique. He died in Paris in 1884. </em> unknown
184947031Paris Bachelier 1849. 4to. No wrappers. In: "Comptes Rendus Hebdomadaires des Séances de L'Academie des Sciences" Tome 28 No 7. Pp. 189-240 entire issue offered. Wurtz's paper: pp. 223-226. <br/><br/><em>First appearance of the announcement of Wurtz's outstanding discovery of Liebig’s prediction that there might be organic compounds analogous to ammonia and derivable from it by the replacement of hydrogen - the amines. The entire memoir was not published in full until 1855 in 'Annales de Chimie et de Physique'.Wurtz is most noted for his investigation of glycols and for his discovery of the amines. The latter discovery in 1849 the paper offered was very significant at the time for ot suggested the possibility of a new type the ammonia type which helped to explain the behaviour of nitrogenous compounds. Leicester & Klickstein "A Source Book." pp. 362-63. - Parkinson "Breakthroughs" 1849 C. </em> unknown
186244063Leipzig Johann Ambrosius Barth 1862. Without wrappers as issued in "Annalen der Physik und Chemie. Hrsg. von J.C. Poggendorff" Vierte Reihe Bd. 27 117 Stück Zwei No. 10. The entire issue offered. Titlepage to vol. 27. Pp. 193-352 a. 1 engraved plate. Ångströms paper: pp. 290-302. <br/><br/><em>First appearance in German of Ångström's famous paper in which he announced the discovery of hydrogen in the atmosphere of the sun and in which he also confirmed the probable existence of of other elements there. The paper appeared in "Oefversigt af K. Vet. Acad. Förhandl." in 1861. The German paper here is expanded. At the same time it was translated into English and publishe as "On the Fraunhofer Lines Visible in the Solar Spectrum".Ångström was one of the early formulators of the science of modern spectroscopy; he wrote extensively on terrestrial magnetism the conduction of heat and especially spectroscopy. He published a monumental map of the normal solar spectrum that expressed the length of light waves in units of one ten-millionth of a millimeter a unit of length now known as the angstrom. He discovered that hydrogen is present in the sun's atmosphere and he was the first to examine the spectrum of the aurora borealis. </em> unknown
185847111Paris Mallet-Bachelier 1858. 4to. No wrappers. In: "Comptes Rendus Hebdomadaires des Séances de L'Academie des Sciences" Tome 47 No 6 a. No 10. Pp. 245- 279 a. pp. 393- 431 entire issues offered. Bernard's papers: pp. 245- 253 a. pp. 393 -400. <br/><br/><em>First appearance of these landmark papers in which Barnard explains his discovery of how the nerves controls the blood vessels. This is the "discovery of the vascoconstrictor and vasodilator nerves and description of their function of regulating the blood supply to the different parts of the body."Garrison & Morton No. 774."In 1858 the papers offered Bernard demonstrated the existence of vasodilator nerves by finding an increased blood flow through the submaxillary gland when the corda tympani is stimulated. He also observed that the venous blood became bright red. Since that time an enormous amount of research has been carried out on the vasomotor system."R.J.S. Mcdowall.Garrison & Morton No. 774. </em> unknown
183247933Paris Crochard 1832. Contemp. hcalf. Spine gilt. Light wear along edges. Stamps to verso of titlepage. In: "Annales de Chimie et de Physique" 2e Series vol. 51. Entire volume offered. 448 pp. a. 1 folded engraved plate. Faraday's letter: pp. 404-434. Internally clean and fine. <br/><br/><em>First printing of Faraday's famous letter to Gay-Lussac in which he claim to be the discoverer of electro-magnetic induction analysed the results of the Italian philosophers pointing out their errors and defending himself from what he regarded as imputations on his character. The style of this letter is unexceptionable for Faraday could not write otherwise than as a gentleman; but the letter shows that had he willed it he could have hit hard. The letter was later translated into English and published in "Philosophical Magazine" in 1840 under the title "On Magneto-electric Induction"."In 1831 seemingly out of nowhere came the discovery of electromagnetic induction and the beginning of the experimental researches in electricity which were to lead Faraday to the discovery of the laws of electrochemistry specific inductive capacity the Faraday effect and the foundations of classical field theory." DSB. The volume contains further importent papers by AMPÈRE "Note sur une Experience de Hippolyte Pixii relative au Courant produit par la Rotation d'un aimant à l'aide dün appareil imagine par M. Hippolyte Pixii" WÖHLER et LIEBIG "recherches sur le Radical de l'Acide benzoique" and "Lettre de M. Berzelius sur le Benzoyle et l'Acide benzoique" papers by Strohmeyer Gay-Lussac Dutrochet Boussingault BERZELIUS "Sur le Bleu de Prusse et le Cyanoferrure de plomb" etc. etc. </em> unknown
180843299Paris Chez Mad. Ve. Bernard 1808 Contemp. hcalf. gilt spine. Some scratches to binding. Verso of titlepage and plates with small stamps.In: "Annales de Chimie" Vol. 68. - 358 pp. a. 3 engraved plates. The entire volume offered. Gay-Lussac's a. Thenard's paper: pp. 169-174. <br/><br/><em>First announcement of the results that they had obtaines by treating boric acid with potassium showing that acid is composed of a combustible substance and oxygen. "Before regarding their proof of the existance of a new element as complete Gay-Lussac and Thenard wished not only to decomposed boric acid but to recompose it. On November 30 of the same year they were able to state in the 'Annales de Chemie et de Physique" the paper offered that "the composition of boracid s no longer problematical. In fact said they "we decompose and we recompose this acid at will" Weeks "Discovery of the Elements" p. 160. - Parkinson "Breakthroughs" 1808 C. - Bunch 1808.The volume contains other importent paper Davy's famous paper on electrolysis in first French translations Gayton-Morveau"Description d'un hygrometre pour le gaz." d¨'Arcet "Observations sur la potasse et sur la soude préparées à l'alcool" etc. </em> unknown
183747418London Richard and John E. Taylor 1837. No wrappers. Extracted fron "Scientific Memoirs selected from The Transactions of Foreign Academies of Science and Learned Societies. Edited by Richard Taylor." Vol. I. Pp. 540-547. <br/><br/><em>Henry's milestone paper announcing his discovery of electrical self-induction. "Henry independently discovered electro-magnetic induction and in this paper announced his discovery of electric self-induction one of the prime properies of an electro-magnetic circuit. Henry was an eminent experimenter but was casual in publishing his findings with resulting lack of recognition of his contributions."Bern Dibner.Dibner "Heralds of Sciece" No.63.It was also printed the same year in "Transactions of the American Philosophical Society New Series Vol. 5". The paper was later printed in "Philosophical Magazine" 1840."The direction of Henry’s thought became somewhat apparent in his 1835 paper refers to the papers reading before the American Phil. Soc. febr. 6th 1835 on the action of a spiral conductor in increasing the intensity of galvanic currents. The paper started out as an affirmation of Henry’s priority in the discovery of self-induction. He then combined induction proper using Faraday’s findings and his own with selfinduction to show how these produce a pattern of repulsions yielding an increased effect in spirals. He specifically linked these “magneto-electrical†results to the principles of static induction developed by Cavendish and Poisson. This explanation was then applied to Savary’s report of changes of polarity when magnetic needles were placed at varying distances from a wire in which a current was being transmitted "Mémoire sur l’aimantation" in Annales de chimie et de physique 34 1827. That is currents appeared periodically in the air surrounding a current-bearing straight wire as a result of the actions of induction and self-induction." DSB.Wheeler Gift: 2724-2725a. </em> unknown
184342662London Richard and John E. Taylor 1843. 4to. No wrappers as extracted from "Philosophical Transactions" 1843 - Part I. Pp. 1-6. <br/><br/><em>First appearance of a pioneer-paper in the history of early photography as Herschel here for the first time describes his discovery of the iron printing process with ammonio-citrate of iron by both methods namely with blue lines on a white background and white lines on a blue ground. </em> unknown