Leipzig, Johann Ambrosius Barth, 1821. 8vo. Contemp. hcalf. Gilt spine and with gilt lettering. Some scratches to spine. In: ""Annalen der Physik und der Physikalischen Chemie. Hrsg. Ludwig Wilhelm Gilbert"", Bd. 7 (= Bd. 67 der Reihe). (8),444 pp., 2 folded tables and 8 engraved plates. Small stamp to verso of titlepages. Ampére's paper: pp. 113-167 a. 225-258 with 4 engraved plates. Internally clean and fine.
First German versions of Ampére's famous papers, the first announcements of Ampère's discoveries on electromagnetism, being the German version of Ampére's ""Mémoires sur I'action mutuelle de deux courans électriques, sur celle qui existe entre un courant électrique et un aimant ou le globe terrestre, et celle de deux aimans I'un sur I'autre.""Ampère first heard of Ørsted's discovery of electromagnetism on the 4th of September when Arago announced Ørsted's results to the Paris Academy of Sciences. In Ørsted's experiment a current-carrying wire is held over, and under, a compass needle - the result being that the needle is positioned at 45 degrees in respect to the wire. Ampére immediately saw that this result made no physical sense and realized that the true nature of the effect could not be observed until the force of terrestrial magnetism was somehow neutralized" what Ørsted had observed and reported on was the resultant of the force from the wire and that from the earth's magnetic field. Ampère discovered that the compass needle sets at 90 degrees to the current-carrying wire when the effect of terrestial magnetism is eliminated. He also observed that current-carrying wires which are formed as spirals act as permanent magnets, and this lead him to his theory that electricity in motion produces magnetism and that permanent magnets must contain electrical currents. And thus Ampère laid the foundation of the new field of electrodynamics.Ampère announced his theory and experimental results, for the first time, in a series of memoires read before the Paris Academy of Sciences in September and October 1820. These memoires were first published in the September and October issues of Arago's 'Annales de Chimie et de Physique'. In November Ampère had a seperate printing of his findings published under the title 'Mémoires sur I'action mutuelle de deux courans électriques, sur celle qui existe entre un courant électrique et un aimant ou le globe terrestre, et celle de deux aimans I'un sur I'autre.' (Dibner 62, Norman 43). Honeyman 82, Barchas 51, Wheeler 762. (The French versions).The volume contains other importent papers of historical importence, relating to the discovery of electro-magnetism by Oersted in 1820. (Raschig, Bechstein, Georg von Buquoy, Prechtl, Boisgiraud).
Bulletin de propagande de la Société des Amis d'André-Marie Ampère
Reference : 71822
(1947)
1947 1947 - 170, avenue Jean-Jaurès à Lyon - Société reconnue d'utilité publique par Décret du 4 avril 1936 - in-8 broché - revue illustrée - 24 pages - reproductions photographiques
bon état - nombre écrit au stylo sur le haut de la première page
(Paris, 1820). Small 8vo. Contemporary (original?) blank blue paper wrappers. Annulated stamp to title-page, otherwise a nice, clean, and fresh copy. 68 pp. + 5 engraved plates.
First edition, in the extremely scarce off-print, of the first announcement of Ampère's seminal discoveries on electromagnetism, which laid the foundation for electrodynamics. Ampère first heard of Ørsted's discovery of electromagnetism on the 4th of September, when Arago announced Ørsted's results to the Paris Academy of Sciences. In Ørsted's experiment, a current-carrying wire is held over and under a compass needle - the result being that the needle is positioned at 45 degrees in respect to the wire. Ampére immediately saw that this result made no physical sense and realized that the true nature of the effect could not be observed until the force of terrestrial magnetism was somehow neutralized"" what Ørsted had observed and reported on was the resultant of the force from the wire and that from the earth's magnetic field. Ampère discovered that the compass needle sets at 90 degrees to the current-carrying wire, when the effect of terrestial magnetism is eliminated. He also observed that current-carrying wires which are formed as spirals act as permanent magnets, and this lead him to his theory that electricity in motion produces magnetism and that permanent magnets must contain electrical currents. And thus Ampère laid the foundation of the new field of electrodynamics.""Ampère, professor of mathematics at the Polytechnique, heard of Oersted's discovery and immediately set up a series of experiments to determine the exact relationships of current-flow and magnetism. In a week Ampère presented the first of a series of papers establishing the laws of forces acting between conductors carrying current."" (Dibner). Ampère's seminal results were announced in a series of memoires read before the Paris Academy of Sciences in September and October 1820. These memoires were first published in the September and October issues of Arago's ""Annales de Chimie et de Physique"", and in November Ampère had the scarce seperate printing of his findings published under the title ""Mémoires sur I'action mutuelle de deux courans électriques, sur celle qui existe entre un courant électrique et un aimant ou le globe terrestre, et celle de deux aimans I'un sur I'autre"". It is this publication that is considered ""his first great memoir on electrodynamics"" (DSB).Sparrow: 8" Dibner: 62 Honeyman: 83 Barchas 51 (only the periodical-issue) Wheeler 762 (only the periodical-issue).
AMPERE - OERSTED - ARAGO - BIOT - DAVY - FARADAY - G. et A. DE LA RIVE - FRESNEL - BARLOW - SAVARY - WEBER - ETC -- Société Française de Physique
Reference : 4807
P., Gauthier-Villars, 1885/1887, 2 VOLUMES in 8 reliés en demi-chagrin rouge et en demi-chagrin vert (reliures de l'époque), 7pp., 412pp. ; (2), 403pp.
EDITION ORIGINALE ---- Réunion en deux volumes, par la Société Française de physique, des mémoires publiés sur l'électrodynamique par AMPERE, OERSTED, ARAGO, BIOT, DAVY, FARADAY, G. et A. DE LA RIVE, FRESNEL, BARLOW, SAVARY, WEBER, ETC ---- "Ces mémoires sont rangés par ordre de date. Le premier volume commence par le mémoire d'OERSTED, publié le 21 Juillet 1820, et va jusqu'à la fin de 1823. Il renferme également les mémoires d'AMPERE, d'ARAGO, de BIOT, de DAVY, de FARADAY, etc... Ceux d'AMPERE tiennent naturellement la plus grande place. Les mémoires d'AMPERE postérieures à 1823 occupent également une grande partie du volume. On trouvera, à très peu près, dans ces deux volumes tout ce qui a été publié sur l'électrodynamique par l'illustre physicien. On trouvera également quelques morceaux restés inédits ou publiés seulement par extraits ainsi que DEUX NOTES INEDITES DE FRESNEL relatives au magnétisme...". (Avertissement) ---- OERSTED : Expérience relative à l'effet du conflit électrique sur l'aiguille aimantée -- AMPERE : De l'action exercée sur un courant électrique par un autre courant, le globe terrestre ou un aimant ; Mémoire sur l'expression mathématique des attractions et des répulsions électriques ; Analyse des mémoires lus à l'Académie les 11 et 26 Décembre 1820 et les 8 et 15 Janvier 1821 ; Extrait d'une lettre d'Ampère à M. Le Professeur De La Rive sur des expériences électromagnétiques ; Expériences relatives aux nouveaux phénomènes électrodynamique obtenus au mois de Décembre 1821 ; Réponse à la lettre de M. Van Beck, sur une nouvelle expérience électromagnétique ; Exposé sommaire des nouvelles expériences électromagnétiques faites par différents physiciens, depuis le mois de Mars 1821 ; Second mémoire sur la détermination de la formule qui représente l'action mutuelle de deux portions infiniment petites de conducteurs voltaïques ; Mémoire sur la théorie mathématique des phénomènes électro-dynamiques, uniquement déduite de l'expérience, dans lequel se trouvent réunis les mémoires que M. Ampère a communiqués à l'Académie royale des Sciences, dans les séances des 4 et 26 Décembre 1820, 10 Juin 1822, 22 Décembre 1823, 12 Septembre et 28 Novembre 1825... -- ARAGO : Expériences relatives à l'aimantation du fer et de l'acier par l'action du courant voltaïque - Davy : Sur les phénomènes magnétiques produits par l'électricité ; Nouvelles recherches sur les phénomènes magnétiques produits par l'électricité . Sur un nouveau phénomène électromagnétique -- FRESNEL : Note sur des essais ayant pour but de décomposer l'eau avec un aimant ; Comparaison de la supposition des courants autour de l'axe avec celle des courants autour de chaque molécule ; Deuxième note sur l'hypothèse des courants particulaires -- BIOT & SAVARY : Sur l'aimantation imprimée aux métaux par l'électricité en mouvement -- G. DE LA RIVE : Notice sur quelques expériences électromagnétiques -- FARADAY : mémoire sur les mouvements électromagnétiques et la théorie du magnétisme ; notes d'Ampère sur le mémoire de Faraday -- BARLOW : Sur une expérience électromagnétique curieuse - G. DE LA RIVE : Lettre à M. Arago sur de nouvelles expériences relatives aux actions des courants galvaniques - A. De La Rive : Mémoire sur l'action qu'exerce le globe terrestre sur une portion de circuit voltaïque -- SAVARY, WEBER - ETC**4807/L3
Revue d'Histoire des Sciences - Yvette Conry sur Thomas Willis - René Taton sur André-Marie Ampère - Pierre-Gérard Hamamdjian sur Ampère
Reference : 101008
(1978)
Presses Universitaires de France - P.U.F. , Revue d'Histoire des Sciences Malicorne sur Sarthe, 72, Pays de la Loire, France 1978 Book condition, Etat : Bon broché, sous couverture imprimée éditeur bleu ciel grand In-8 1 vol. - 95 pages
1ere édition, 1978 "Contents, Chapitres : 1. Articles : Yvette Conry : Thomas Willis ou le premier discours rationaliste en pathologie mentale - René Taton : Repères pour une biographie intellectuelle d'Ampère - Pierre-Gérard Hamamdjian : Contribution d'Ampère au "" théorème d'Ampère "" - 2. Documentation, informations, analyses - René Taton : Supplément à l'inventaire de l'oeuvre de Clairaut" Couverture propre, dos et mors légèrement frottés, sinon bel exemplaire, intérieur frais et propre, papier à peine jauni - paginé 194 à 288
Paris, Crochard, 1821. Without wrappers. In: Annales de Chimie et de Physique, Par MM. Gay-Lussac et Arago."", Tome 18., Cahier 1 a. 3. Titlepage a. htitle to vol. 18. Pp. (4), 1-112 a. pp. 225-336 a. 2 folded engraved plates. (Entire issues offered).. Ampère's papers: pp. 88-106 + pp. 313-333 The plates depicts experimental arrangements and Ampère's initial Rotation Apparatus.
Fisrt edition and first printings of the demonstrations of Ampere's new Equilibrium technique. When Faraday had completed his importent paper on Electro-magnetic motions he send it to Ampere.. Ampere invented the Rotation Apparatus in order to repeat Faraday's experiment on the electro-magnetic rotation. He produced an uninterrupted rotation, either of magnetic pole around a wire or of a wire around a magnetic pole. From these experiments originated a new theory of electricity and magnetism. .
Paris, Crochard, 1820. 8vo. In 'Annales de Chimie et de Physique', Volume 15, pp.59-76170-218. The entire volme 15 offered here in contemporary fine half calf with gilt spine. Five engraved plates accompanying the memoires. A fine copy.
First edition of the first announcement of Ampère's discoveries on electromagnetism. Ampère first heard of Ørsted's discovery of electromagnetism on the 4th of September when Arago announced Ørsted's results to the Paris Academy of Sciences. In Ørsted's experiment a current-carrying wire is held over, and under, a compass needle - the result being that the needle is positioned at 45 degrees in respect to the wire. Ampére immediately saw that this result made no physical sense and realized that the true nature of the effect could not be observed until the force of terrestrial magnetism was somehow neutralized what Ørsted had observed and reported on was the resultant of the force from the wire and that from the earth's magnetic field. Ampère discovered that the compass needle sets at 90 degrees to the current-carrying wire when the effect of terrestial magnetism is eliminated. He also observed that current-carrying wires which are formed as spirals act as permanent magnets, and this lead him to his theory that electricity in motion produces magnetism and that permanent magnets must contain electrical currents. And thus Ampère laid the foundation of the new field of electrodynamics.Ampère announced his theory and experimental results, for the first time, in a series of memoires read before the Paris Academy of Sciences in September and October 1820. These memoires were first published in the September and October issues of Arago's 'Annales de Chimie et de Physique' (the offered items). In November Ampère had a seperate printing of his findings published under the title 'Mémoires sur I'action mutuelle de deux courans électriques, sur celle qui existe entre un courant électrique et un aimant ou le globe terrestre, et celle de deux aimans I'un sur I'autre.' (Dibner 62, Norman 43). On the title-page of this publication it is stated 'Extrait des Annales de Chimie et de Physique' and therefore this publication is often identified as an offprint of the two offered papers (see the Norman sales catalogue for an example). This is, however untrue, since it contains considerable changes and additions in comparison with text of the journal issues (see Williams: What were Ampère's Earliest Discoveries in Electrodynamics? ISIS, volume 74, p.492).Honeyman 82, Barchas 51, Wheeler 762.
"AMPÈRE, ANDRÉ-MARIE & MICHAEL FARADAY - DESCRIBING AMPERE'S ROTATION APPARATUS.
Reference : 41248
(1821)
Paris, Crochard, 1821. Contemp. full cloth. Light wear to spine ends. Gilt lettering to spine. In: Annales de Chimie et de Physique, Par MM. Gay-Lussac et Arago."", Tome 18. 448 pp. and 6 folded engraved plates (4 of these belonging to the described papers). Ampère: pp. 88-106 + pp. 313-333 and 4 plates. Faraday: pp. 337-379. Savary: pp. 370-379. The plates depicts experimental arrangements and Ampère's initial Rotation Apparatus. The whole volume present.
Fisrt edition and first printings of the demonstrations of Ampere's new Equilibrium technique. When Faraday had completed his importent paper on Electro-magnetic motions (the paper offered here in the first French edition) he send it to Ampere.. Ampere invented the Rotation Apparatus in order to repeat Faraday's experiment on the electro-magnetic rotation. He produced an uninterrupted rotation, either of magnetic pole around a wire or of a wire around a magnetic pole. From these experiments originated a new theory of electricity and magnetism. - The third memoir is the First French edition of Faraday's famous paper ""On some New Electro-Magnetical Motions, and on the Theory of Magnetism"" (Quaterly Journal of Science, October 1821), in which is recorded for the first time the conversion of electrical into mechanical energy. It also contains the first notion of the ""Line of Force"". He employed a magnet and a wire with a flowing current, which causd each separately to rotate round the other. He concluded that a current-carrying wire is sorraunded by a circular ""line of force"". Oersted had spoken of the ""electrical conflict"" surrounding the wire and had noted that ""this conflict performs circles"".
Paris, Crochard, 1820. 8vo. Without wrappers, as extracted from ""Annales de Chimie et de Physique"", Volume 15, pp. 59-76 and pp.170-218. Five engraved plates accompanying the memoires showing the experimental equipments. Half-title and title-page to volume 15 present.
First edition of the first announcement of Ampère's discoveries on electromagnetism. Ampère first heard of Ørsted's discovery of electromagnetism on the 4th of September when Arago announced Ørsted's results to the Paris Academy of Sciences. In Ørsted's experiment a current-carrying wire is held over, and under, a compass needle - the result being that the needle is positioned at 45 degrees in respect to the wire. Ampére immediately saw that this result made no physical sense and realized that the true nature of the effect could not be observed until the force of terrestrial magnetism was somehow neutralized"" what Ørsted had observed and reported on was the resultant of the force from the wire and that from the earth's magnetic field. Ampère discovered that the compass needle sets at 90 degrees to the current-carrying wire when the effect of terrestrial magnetism is eliminated. He also observed that current-carrying wires which are formed as spirals act as permanent magnets, and this lead him to his theory that electricity in motion produces magnetism and that permanent magnets must contain electrical currents. And thus, Ampère laid the foundation of the new field of electrodynamics.Ampère announced his theory and experimental results, for the first time, in a series of memoires read before the Paris Academy of Sciences in September and October 1820. These memoires were first published in the September and October issues of Arago's ""Annales de Chimie et de Physique"" (the offered items). In November, Ampère had a separate printing of his findings published under the title 'Mémoires sur I'action mutuelle de deux courans électriques, sur celle qui existe entre un courant électrique et un aimant ou le globe terrestre, et celle de deux aimans I'un sur I'autre.' (Dibner 62, Norman 43). On the title-page of this publication it is stated 'Extrait des Annales de Chimie et de Physique' and therefore this publication is often identified as an offprint of the two offered papers (see the Norman sales catalogue for an example). This is, however untrue, since it contains considerable changes and additions in comparison with text of the journal issues (see Williams: What were Ampère's Earliest Discoveries in Electrodynamics? ISIS, volume 74, p.492).Honeyman 82, Barchas 51, Wheeler 762. Sparrow, Milestones No 8.
Paris, Crochard, 1820. 8vo. In 'Annales de Chimie et de Physique', Volume 15, pp. 59-76 170-218. The entire volme 15 offered in a nice contemporary half calf with gilt spine. A bit of wear to extremities. Five engraved plates accompanying the memoires. A very fine copy.
First edition of the first announcement of Ampère's discoveries on electromagnetism. Ampère first heard of Ørsted's discovery of electromagnetism on the 4th of September, when Arago announced Ørsted's results to the Paris Academy of Sciences. In Ørsted's experiment, a current-carrying wire is held over and under a compass needle - the result being that the needle is positioned at 45 degrees in respect to the wire. Ampére immediately saw that this result made no physical sense and realized that the true nature of the effect could not be observed until the force of terrestrial magnetism was somehow neutralized what Ørsted had observed and reported on was the resultant of the force from the wire and that from the earth's magnetic field. Ampère discovered that the compass needle sets at 90 degrees to the current-carrying wire, when the effect of terrestial magnetism is eliminated. He also observed that current-carrying wires which are formed as spirals act as permanent magnets, and this lead him to his theory that electricity in motion produces magnetism and that permanent magnets must contain electrical currents. And thus Ampère laid the foundation of the new field of electrodynamics.Ampère announced his theory and experimental results, for the first time, in a series of memoires read before the Paris Academy of Sciences in September and October 1820. These memoires were first published in the September and October issues of Arago's 'Annales de Chimie et de Physique' (i.e. the offered item). In November Ampère had a seperate printing of his findings published under the title 'Mémoires sur I'action mutuelle de deux courans électriques, sur celle qui existe entre un courant électrique et un aimant ou le globe terrestre, et celle de deux aimans I'un sur I'autre.' (Dibner 62, Norman 43). On the title-page of this publication it is stated 'Extrait des Annales de Chimie et de Physique' and therefore this publication is often identified as an offprint of the two offered papers (see the Norman sales catalogue for an example). This is, however untrue, since it contains considerable changes and additions in comparison with text of the journal issues (see Williams: What were Ampère's Earliest Discoveries in Electrodynamics? ISIS, volume 74, p.492).Honeyman 82, Barchas 51, Wheeler 762.
Paris, Crochard, 1820. 8vo. In 'Annales de Chimie et de Physique', Volume 15, pp.59-76170-218. The entire volme 15 offered here. 448 pp., 5 engraved plates. Bound in contemporary half calf with gilt spine, Raised bands. Minor scratches to spine. Corners a bit bumped. Five engraved plates accompanying the memoires. Clean and fine.
First edition of the first announcement of Ampère's discoveries on electromagnetism. Ampère first heard of Ørsted's discovery of electromagnetism on the 4th of September when Arago announced Ørsted's results to the Paris Academy of Sciences. In Ørsted's experiment a current-carrying wire is held over, and under, a compass needle - the result being that the needle is positioned at 45 degrees in respect to the wire. Ampére immediately saw that this result made no physical sense and realized that the true nature of the effect could not be observed until the force of terrestrial magnetism was somehow neutralized what Ørsted had observed and reported on was the resultant of the force from the wire and that from the earth's magnetic field. Ampère discovered that the compass needle sets at 90 degrees to the current-carrying wire when the effect of terrestial magnetism is eliminated. He also observed that current-carrying wires which are formed as spirals act as permanent magnets, and this lead him to his theory that electricity in motion produces magnetism and that permanent magnets must contain electrical currents. And thus Ampère laid the foundation of the new field of electrodynamics. Ampère announced his theory and experimental results, for the first time, in a series of memoires read before the Paris Academy of Sciences in September and October 1820. These memoires were first published in the September and October issues of Arago's 'Annales de Chimie et de Physique' (the offered items). In November Ampère had a seperate printing of his findings published under the title 'Mémoires sur I'action mutuelle de deux courans électriques, sur celle qui existe entre un courant électrique et un aimant ou le globe terrestre, et celle de deux aimans I'un sur I'autre.' (Dibner 62, Norman 43). On the title-page of this publication it is stated 'Extrait des Annales de Chimie et de Physique' and therefore this publication is often identified as an offprint of the two offered papers (see the Norman sales catalogue for an example). This is, however untrue, since it contains considerable changes and additions in comparison with text of the journal issues (see Williams: What were Ampère's Earliest Discoveries in Electrodynamics? ISIS, volume 74, p.492). Honeyman 82, Barchas 51, Wheeler 762.
[Crochard] - GAY-LUSSAC ; ARAGO ; AMPERE ; VACHMESTER ; VAUQUELIN ; Félix SAVART ; Henri ROSE ; André DEL RIO ; Collectif
Reference : 34641
(1825)
1 vol. in-8 cartonnage marbré de l'époque, Chez Crochard, Paris, 1825, 448 pp. avec 3 planches dépliantes. Contient notamment : Mémoire sur une nouvelle Expérience électro-dynamique, sur son application à la formule qui représente l'action mutuelle de deux élémens de conducteurs voltaïques, et sur de nouvelles conséquences déduites de cette formule (Ampère) ; Lettre de M. Ampère à M. Gerhardi sur divers phénomènes électro-dynamiques ; Extrait d'un Rapport fait à l'Académie par M. Ampère sur les Piles sèches de M. Zamboni ; Examen de quelques minéraux du genre grenat (Vachmester) ; Note sur la Répulsion que des corps échauffés exercent les uns sur les autres à des distances sensibles (Fresnel) ; Note sur l'existence de l'iode dans le règne minéral (Vauquelin) ; Analyse des Séléniures du Harz oriental (Rose) ; Sur la séparation de l'acide titanique de l'oxide de fer (Henri Rose) ; Analyse d'un Alliage d'or avec du rhodium, de la maison du Départ de Mexico (André del Rio) ; De l'action des poisons sur le règne végétal (Marcet) ; Examen du Platine trouvé en Russie (Laugier) ; Nouvelles Recherches sur les Vibrations de l'air (Félix Savart), etc...
Rare exemplaire de l'important tome 29 des "Annales de Chimie et de Physique" contenant deux importants articles d'André Marie Ampère dont l'essentiel "Mémoire sur une nouvelle Expérience électro-dynamique" qui sera intégré dans son Mémoire de 1827. Etat satisfaisant (cartonnage frotté avec manque au dos en queue et ancienne restauration, bon état intérieur)
S.n. (Académie royale des sciences), s.l. (Paris) s.d. (1820), 14x21,5cm, broché.
|"J'appellerai le premiertension électrique, le secondcourant électrique"| * Edition originale imprimée à petit nombre de ce tiré à part des Annales de Chimie et de Physique. Brochure illustrée de 5 planches dépliantes en fin de volume. Exemplaire présenté dans son rare brochage d'origine et recouvert d'une couverture d'attente beige qui comporte des manques angulaires. Extrêmement rare exemplaire du premier mémoire d'Ampère sur l'électrodynamique, première expression analytique rendant compte des observations entre courant et magnétisme. Ampère s'est immédiatement passionné par la démonstration des effets de l'électricité parcourant des fils sur une aiguille magnétisée du savant danois Ørsted, expérience dont Arago avait rendue compte à l'Académie des sciences le 4 septembre 1820. Dans un effort prodigieux, dont il rendit compte pendant sept semaines consécutives à l'Académie, Ampère créera l'électrodynamique. Le présent exemplaire est l'édition originale du tiré à part de ses toutes premières communications sur le sujet, lors de séances à l'Académie désormais considérées comme historiques. La publication de son étude coïncide également avec la naissance de son très célèbre«bonhomme d'Ampère», qu'il introduitdans ses notes d'expériences. Dans ces Mémoires, partant d'une distinction entre l'électricité de tension (électricité statique ; magnétisme) et l'électricité de courant (électricité voltaïque), Ampère propose une théorie cohérente soutenant que le magnétisme n'est qu'un type spécial de manifestation de l'électricité. Les illustrations à la fin du mémoire gardent la trace des appareils inventés et construits de ses propres mains pour ses expériences décisives : la boussole astatique (pl. 4), ancêtre du galvanomètre, permettantd'éliminer l'influence du champ magnétique terrestre sur un équipage mobile, et facilitantl'étude du champ créé par un courant. le prototype de solénoïde, installation composée de deux fils conducteurs (pl.5) enroulés en spirales - susbsitution des aimants - s'attirant ou se repoussant lorsqu'ils sont parcourus par un courant, suivant le sens du courant. Pour réussir cette expérience, d'abord tentée avec des piles trop faibles, Ampère a dû acheter la grande pile destinée au cours de physique de la Faculté des sciences. le "solénoïde" (pl. 2), terme qu'il inventera pour désigner une bobinage en hélice, qui remplace la spirale du précédent appareil. Cet enroulement est désormaisutilisé dans un grand nombre d'appareils, notamment les transformateurs et électro-aimants. l'instrument de l'expérience fondamentale réalisée devant les académiciens,qui vérifie laloiselon laquelle deux courants parallèles de même sens s'attirent tandis que deux courants de sens contraire se repoussent (pl. 1). Un rare témoin d'une étape immense dans l'histoire des sciences, ouvrant la voie à des inventions révolutionnaires telles que le premier moteur électrique ou encore l'électro-aimant. Sparrow, Milestones of Science, 8, p. 268. - Photos sur www.Edition-originale.com -
[Crochard] - ARAGO ; GAY-LUSSAC ; AMPERE ; FARADAY ; LAPLACE ; Collectif
Reference : 34630
(1821)
1 vol. in-8 cartonnage marbré de l'époque, Chez Crochard, Paris, 1821, 448 pp., 1 f. n. ch. ("Planche du Mémoire de M. Ampère") avec 6 planches dépliantes. Contient notamment : Note sur un appareil à l'aide duquel on peut vérifier toutes les propriétés des conducteurs de l'électricité voltaïque découvertes par M. Ampère - Suite de la note (Ampère) ; Sur l'attraction des Corps sphériques, et sur la répulsion des fluides élastiques (Laplace) ; Eclaircissement de la théorie des fluides élastiques (Laplace) ; Sur les mouvemens électro-magnétiques et la théorie du magnétisme (Faraday) ; Notes relatives au Mémoire de M. Faraday ; etc...
Rare exemplaire du tome 18 des "Annales de Chimie et de Physique", proposant notamment l'important article d'Ampère (pp. 88-106 et 313-333 avec les 3 planches dépliantes) et la traduction de l'article de Faraday sur l'électro-magnétisme (pp. 337-370 avec la planche dépliante). Etat satisfaisant (cartonnage lég. frotté avec petit manque à un coin, 1 ff. double débroché, deux piqûres de vers sur plusieurs cahiers avec petit travail marginal n'affectant que partiellement qq. lettres).
Paris, Crochard, 1825. 8vo. 2 contemporary half calfs w. richly gilt spines. Light wear at top of spines. Minor scratches to upper compartments of spines. Small stamps on verso of title-pages and verso of plates. In: ""Annales de Chimie et de Physique, Par MM. Gay-Lussac et Arago."", tome 29 a. 30. - 448 pp. and 3 folded engraved plates + 448 pp. and 2 folded engraved plates. (The entire volumes offered). Ampère's papers: pp. 381-404 (tome 29) + Suite pp. 29-41 (tome 30) + ""Lettre à Gerhardi"": pp. 373-381 (tome 29). Clean and fine throughout.
First appearance of this famous memoir, in which Ampère presented his collected results on electrodynamics to the French Academy, creating the foundation of 19th century developments in electricity and magnetism. In the words of James Clark Maxwell, ""We can scarcely believe that Ampère really discovered the law of action by means of the experiments which he describes. We are led to suspect, what, indeed, he tells us himself, that he discovered the law by some process which he has not shown us, and that when he had afterwards built up a pefect demonstration he removed all traces of the scaffolding by which he raised it.""The offered memoir was published BEFORE the famous ""Theorie mathématique des phénomènes électro-dynamiques uniquement déduite de L'expérience"", which did not appear until 1827. That 1827-Memoire incorporates, together with a new presentation of Ampère's results from 1820, 1822, 1823, the offered memoir (1825). (Horblit: 100 - Dibner: 62).""From 1814 until 1820 Ampére did not perform the kind of research that would have made it into the annals of the histrory of science, but on September 11, 1820 when he heard Francois Arago speak about Oersted's work, he got fresh inspiration and started the work that made him famous. Arago related how Oersted had found that a steady electric current influences the orientation of a compass needle. After a weak Ampère had determined experimentally that that two straight, parallel, and current-carrying, wires execute a force on each other. The magnitude of the force is inversely proportional to the distance between the wires and proportional to the strenghts of the current..... During the following years he continued his researches, both experimentally and theoretically. he built an instrument for measuring electricity that later was developed into the galvanometer. Finally in 1825 he presented his collected results to the Academy IN ONE OF THE MOST CELEBRATED MEMOIRS IN THE HISTORY OF NATURAL PHILOSOPHY (The paper offered)."" (Citizen's Compendium, p. 2). - Norman No 47.The volumes contain many other notable papers by: Wöhler, Fresnel, Marcet, Berzelius, Felix Savart, De la Rive, Braconnet, Boussingault, Magnus, Poncelet, Vaugelin, Poisson, Gay-Lussac, Faraday, Laplace etc.
"AMPÈRE, ANDRÉ-MARIE. - THE CARDINAL FORMULAS OF ELECTRO-DYNAMICS.
Reference : 47420
(1825)
(Paris, Crochard, 1825). Extracted from ""Annales de Chimie et de Physique, Par MM. Gay-Lussac et Arago."", tome 29 a. 30. Ampère's papers: pp. 381-404 a. 1 folded engraved plate (tome 29) + Suite pp. 29-41 (tome 30) + ""Lettre à Gerhardi"": pp. 373-381 (tome 29). With both halftitlepages to vol. 29 a. 30. Scattered brownspots.
First appearance of this famous memoir, in which Ampère presented his collected results on electrodynamics to the French Academy, creating the foundation of 19th century developments in electricity and magnetism. In the words of James Clark Maxwell, ""We can scarcely believe that Ampère really discovered the law of action by means of the experiments which he describes. We are led to suspect, what, indeed, he tells us himself, that he discovered the law by some process which he has not shown us, and that when he had afterwards built up a pefect demonstration he removed all traces of the scaffolding by which he raised it.""The offered memoir was published BEFORE the famous ""Theorie mathématique des phénomènes électro-dynamiques uniquement déduite de L'expérience"", which did not appear until 1827. That 1827-Memoire incorporates, together with a new presentation of Ampère's results from 1820, 1822, 1823, the offered memoir (1825). (Horblit: 100 - Dibner: 62).""From 1814 until 1820 Ampére did not perform the kind of research that would have made it into the annals of the histrory of science, but on September 11, 1820 when he heard Francois Arago speak about Oersted's work, he got fresh inspiration and started the work that made him famous. Arago related how Oersted had found that a steady electric current influences the orientation of a compass needle. After a weak Ampère had determined experimentally that that two straight, parallel, and current-carrying, wires execute a force on each other. The magnitude of the force is inversely proportional to the distance between the wires and proportional to the strenghts of the current..... During the following years he continued his researches, both experimentally and theoretically. he built an instrument for measuring electricity that later was developed into the galvanometer. Finally in 1825 he presented his collected results to the Academy IN ONE OF THE MOST CELEBRATED MEMOIRS IN THE HISTORY OF NATURAL PHILOSOPHY (The paper offered)."" (Citizen's Compendium, p. 2). - Norman No 47.
"AMPÈRE, ANDRÉ-MARIE. - ""ONE OF THE MOST CELEBRATED MEMOIRS IN THE HISTORY OF NATURAL PHILOSOPHY""
Reference : 48082
(1825)
Paris, Crochard, 1825. 8vo. Bound in 2 uniform later hcloth. Gilt lettering to spines. In: ""Annales de Chimie et de Physique, Par MM. Gay-Lussac et Arago."", tome 29 a. 30. - 448 pp. and 3 folded engraved plates + 448 pp. and 2 folded engraved plates. (The entire volumes offered). Ampère's papers: pp. 381-404 (tome 29) + Suite pp. 29-41 (tome 30) + ""Lettre à Gerhardi"": pp. 373-381 (tome 29). Some scattered brownspots.
First appearance of this famous memoir, in which Ampère presented his collected results on electrodynamics to the French Academy, creating the foundation of 19th century developments in electricity and magnetism. In the words of James Clark Maxwell, ""We can scarcely believe that Ampère really discovered the law of action by means of the experiments which he describes. We are led to suspect, what, indeed, he tells us himself, that he discovered the law by some process which he has not shown us, and that when he had afterwards built up a pefect demonstration he removed all traces of the scaffolding by which he raised it.""The offered memoir was published BEFORE the famous ""Theorie mathématique des phénomènes électro-dynamiques uniquement déduite de L'expérience"", which did not appear until 1827. That 1827-Memoire incorporates, together with a new presentation of Ampère's results from 1820, 1822, 1823, the offered memoir (1825). (Horblit: 100 - Dibner: 62).""From 1814 until 1820 Ampére did not perform the kind of research that would have made it into the annals of the histrory of science, but on September 11, 1820 when he heard Francois Arago speak about Oersted's work, he got fresh inspiration and started the work that made him famous. Arago related how Oersted had found that a steady electric current influences the orientation of a compass needle. After a weak Ampère had determined experimentally that that two straight, parallel, and current-carrying, wires execute a force on each other. The magnitude of the force is inversely proportional to the distance between the wires and proportional to the strenghts of the current..... During the following years he continued his researches, both experimentally and theoretically. he built an instrument for measuring electricity that later was developed into the galvanometer. Finally in 1825 he presented his collected results to the Academy IN ONE OF THE MOST CELEBRATED MEMOIRS IN THE HISTORY OF NATURAL PHILOSOPHY (The paper offered)."" (Citizen's Compendium, p. 2). - Norman No 47.The volumes contain many other notable papers by: Wöhler, Fresnel, Marcet, Berzelius, Felix Savart, De la Rive, Braconnet, Boussingault, Magnus, Poncelet, Vaugelin, Poisson, Gay-Lussac, Faraday, Laplace etc.
Paris, Crochard, 1825. 8vo. Bound in contemporary half calf with gilt lettering to spine. In: ""Annales de Chimie et de Physique, Par MM. Gay-Lussac et Arago."", tome 29. Entire volume offered. Very light occassional foxing, otherwise a fine and clean copy with no institutional stamps. Pp. 381-404"" 373-381. [Entire volume: 448 pp. + folded plate].
First appearance of this famous memoir, in which Ampère presented his collected results on electrodynamics to the French Academy, creating the foundation of 19th century developments in electricity and magnetism. In the words of James Clark Maxwell, ""We can scarcely believe that Ampère really discovered the law of action by means of the experiments which he describes. We are led to suspect, what, indeed, he tells us himself, that he discovered the law by some process which he has not shown us, and that when he had afterwards built up a pefect demonstration he removed all traces of the scaffolding by which he raised it."" The offered memoir was published BEFORE the famous ""Theorie mathématique des phénomènes électro-dynamiques uniquement déduite de L'expérience"", which did not appear until 1827. That 1827-Memoire incorporates, together with a new presentation of Ampère's results from 1820, 1822, 1823, the offered memoir (1825). (Horblit: 100 - Dibner: 62). ""From 1814 until 1820 Ampére did not perform the kind of research that would have made it into the annals of the histrory of science, but on September 11, 1820 when he heard Francois Arago speak about Oersted's work, he got fresh inspiration and started the work that made him famous. Arago related how Oersted had found that a steady electric current influences the orientation of a compass needle. After a weak Ampère had determined experimentally that that two straight, parallel, and current-carrying, wires execute a force on each other. The magnitude of the force is inversely proportional to the distance between the wires and proportional to the strenghts of the current..... During the following years he continued his researches, both experimentally and theoretically. he built an instrument for measuring electricity that later was developed into the galvanometer. Finally in 1825 he presented his collected results to the Academy IN ONE OF THE MOST CELEBRATED MEMOIRS IN THE HISTORY OF NATURAL PHILOSOPHY (The paper offered)."" (Citizen's Compendium, p. 2). - Norman No 47. The volumes contain many other notable papers by: Wöhler, Fresnel, Marcet, Berzelius, Felix Savart, De la Rive, Braconnet, Boussingault, Magnus, Poncelet, Vaugelin, Poisson, Gay-Lussac, Faraday, Laplace etc.
[Crochard] - ARAGO ; BERTHOLLET ; VAUQUELIN ; HUMPHRY DAVY ; FRESNEL, Augustin ; AMPERE ; GAY-LUSSAC ; HUMBOLDT ; VIREY ; HAUY ; DALTON
Reference : 34613
(1816)
1 vol. in-8 cartonnage d'origine, Chez Crochard, Paris, 1816, 452 pp. avec 3 planches dépliantes hors texte . Contient notamment : Sur les Puissances réfractives et dispersives de certains liquides et des vapeurs qu'ils forment (Arago et Petit) ; Note sur le Principe colorant du sang des Animaux (Vauquelin) ; Expériences sur la combustion du Diamant et d'autres substances carbonacées (Humphry Davy) ; Observations sur l'oxidation de quelques métaux (Gay-Lussac) ; Relation de la chute d'une pierre météorique tombée dans les environs de Langres (Virey) ; Sur la hauteur relative des Niveaux de la mer Noire et de la mer Caspienne (Maurice d'Engelhardt et François Parrot) ; Tables des dilatations linéaires qu'éprouvent différentes substances depuis le terme de la congélation de l'eau jusqu'à celui de son ébullition d'après les expériences de MM. de Laplace, Lavoisier, Smeaton, Roy ; Description d'un nouveau Baromètre portatif (Gay-Lussac) ; Mémoire sur l'air inflammable des mines de charbon (Humphry Davy) ; Observations sur l'influence que le vent apporte dans la propagation du son (Delaroche) ; Note sur un phénomène remarquable qui s'observe dans la diffraction de la lumière (Arago) ; Sur les lois que l'on observe dans la distribution des formes végétales (Alex. de Humboldt) ; Mémoire sur la Diffraction de la lumière, où l'on examine particulièrement le phénomène des franges colorées que présentent les ombres des corps éclairés par un point lumineux (Fresnel) ; Essai d'une classification naturelle pour les Corps Simples (Ampère) ; Suite de l'Essai (Ampère) ; Sur les lampes de sûreté de Sir Humphry Davy ; Justification de la Théorie de M. Dalton, sur l'absorption des Gaz par l'eau, contre les conclusions de M. de Saussuren par M. John Dalton ; Sur les combinaisons de l'Azote avec l'Oxigène (Gay-Lussac) ; Sur la vertu électrique de quelques minéraux (M. Haüy)
Rare exemplaire du premier tome paru des "Annales de Chimie et de Physique", contenant l'édition originale (daté d'octobre 1815) du premier mémoire publié par Augustin Fresnel sur la diffraction de la lumière (avec la planche d'illustration, "a major influence on the development of nineteenth-century energetics" DSB, V, 171), l'intéressant essai de classification naturelle d'Ampère pour les corps simples ("an early attempt to find relationships between the elements that would bring some order in to the constantly growing number of elementary bodies" DSB, I, 143) ou l'important article de Gay-Lussac sur la combinaison de l'azote avec l'oxygène ("This was a more complex problem than he then realized, but he returned to it in 1816 after criticism of his earlier work by Dalton ; ths time his results were of permanent value" DSB, V, 323). Etat satisfaisant (fente à un mors, sans gardes, mq. la coiffe de queue, une très petite piqûre de vers en dos, une petite mouill. en tête sur qq. ff.)
[Crochard] - GAY-LUSSAC ; ARAGO ; AMPERE ; POISSON ; Félix SAVART ; BECQUEREL ; LAUGIER ; Collectif
Reference : 34638
(1824)
1 vol. in-8 cartonnage marbré de l'époque, Chez Crochard, Paris, 1824, 448 pp. avec 7 planches dont 6 planches dépliantes hors texte, Contient notamment : Extrait d'un Mémoire sur les Phénomènes électro-dynamiques (Ampère) - Sur la chaleur rayonnante - Note relative au Mémoire sur la Chaleur rayonnante (Poisson) - Développemens relatifs aux Effets électriques observés dans les actions chimiques ; et de la Distribution de l'électricité dans la pile de Volta, en tenant compte des actions électro-motrices des liquides sur les métaux (Becquerel) - Description d'un appareil électro-dynamique (Ampère). Recherches sur les usages de la membrane du tympan et de l'oreille externe (Savart) ; Instruction sur les Paratonnerrres (Gay-Lussac) ; Sur la corrosion du cuivre qui forme le doublage des vaisseaux (Davy) ; Observations sur la température de la terre à Paramatta (Nouvelle-Galles du Sud par Sir Brisbane) ; Instruction sur l'Essai du Chlorure de Chaux (Gay-Lussac) ; Extrait d'un mémoire sur les mortiers hydrauliques (Treussart) ; Examen chimique d'un fragment d'une masse saline considérable rejetée par le Vésuve dans l'éruption qui a eu lieu en 1822 (Laugier) ; etc...
Rare exemplaire du très important tome 26 des "Annales de Chimie et de Physique" contenant notamment les importants articles d'Ampère ("Extrait", et "Suite de l'Extrait", pp. 134-162 et 246-258 avec 1 planche dépliante, et "Description d'un appareil électro-dynamique" pp. 390-411 avec 2 planches dépliantes) ou de Gay-Lussac avec son " Instruction sur l'Essai du Chlorure de Chaux " (pp. 162-175 avec 1 planche ; "His 1824 paper is important, as it contains the first use of the termes pipette and burette for the respective pieces of apparatus that have since become standard" DSB, V, 325) ou son importante "Instruction sur les Paratonnerres" (avec 2 planches dépliantes). Etat très satisfaisant (cartonnage un peu frotté, une petit tache d'encre en queue sur une planche, une petite mouill. marginale sur deux planches).
[Crochard] - GAY-LUSSAC ; ARAGO ; AMPERE ; Félix SAVART ; KUPFFER ; Marcel de SERRES ; Collectif
Reference : 34642
(1825)
1 vol. in-8 cartonnage marbré de l'époque, Chez Crochard, Paris, 1825, 448 pp. avec 2 planches dépliantes. Contient notamment : Suite du Mémoire de M. Ampère sur une nouvelle Expérience électro-dynamique, sur son application à la formule qui représente l'action mutuelle de deux élémens de conducteurs voltaïques, et sur de nouvelles conséquences déduites de cette formule (Ampère) ; Mémoire sur la Voix humaine (Félix Savart) ; Recherches relatives à l'Influence de la température sur les forces magnétiques (A.-F. Kupffer) ; Mémoire sur les Roues verticales à palettes courbes mues par dessous, suivi d'expériences sur les effets mécaniques de ces roues (Poncelet) ; Lettre de M. Marcel de Serres à M. Gay-Lussac sur les Cavernes à ossemens ; De l'Influence exercée par divers milieux sur le nombre de vibrations des corps solides (Félix Savart) ; etc...
Rare exemplaire de l'important tome 30 des "Annales de Chimie et de Physique" contenant la suite de l'article d'André Marie Ampère "Mémoire sur une nouvelle Expérience électro-dynamique" (pp. 29-41) qui sera intégré dans son Mémoire de 1827, et celui de Félix Savart (Mémoire sur la Voix humaine, pp. 64-86)) . Etat très satisfaisant (cartonnage lég. frotté avec petit accroc au dos en tête, bon état intérieur)
"AMPÈRE, ANDRÉ-MARIE. - THE CLASSIFICATORY SYSTEM OF AMPERE.
Reference : 43465
(1816)
(Paris, Crochard, 1816) No wrappers as extracted fron 'Annales de Chimie et de Physique', Volume 1 and 2 (2e Series). Pp. 295-308 a. pp. 373-394 (Vol. 1), pp. 5-32 a. pp. 105-125 (Vol. 2). With both halftitles to vols. 1 a. 2. Htitles shaved in inner margins, no loss of letters. All 4 papers having some scattered brownspots.
First appearance of Ampere's notable memoir (issued in 4 parts) in which he tries to set up a classification system for the elementary entities in chemistry tieing the elements together in a natural classification, a dim foreshadowing of the periodic table.""Here (in the paper offered) he drew attention to the similarities between Lavoisier's and his fellowers classification of elements in terms of their reactions with oxygen and Linnaeus' classification of plants in terms of their sexual organs. Bernard de Jussieu had successfully challenged Linnaeus with a natural system that took the whole plant into account and sought affinities between all parts of the plant, not just the flowers, as the basic classification. Ampère now wished to do the same thing for chemistry. By discovering a natural classification, i.e., one that tied the elements together by real and rather than artificial relations, Ampère hoped to prove a new insight into chemical reactions. His classificatory scheme, therefore, was not merely an ordering ofthe elements but, like the later periodic table of Dimitri Mendeleev, a true instrument of chemical research. Ampères system was as artificial as Lavoisier's...Thepapermay be noted, however, as an early attempt to find relationships between elements that would bring some order into the constantly growing number of elementary bodies.""(DSB I, p. 143).
"FRESNEL, AUGUSTIN ( ARAGO, AMPÉRE, BIOT, FOURIER). - THE FINAL DOWNFALL OF THE CORPUSCULAR THEORY OF LIGHT.
Reference : 44516
(1816)
Paris, Crochard, 1816-25. Bound in 2 fine recent hmorocco. In: ""Annales de Chimie et de Physique, Redigées par MM. Gay-Lussac et Arago"", Tome I, IV, IX, X, XI, XV, XVII, XX, XXI, XXIII, XXVIII and XXIX. Some memoirs with scattered brownspots. All but volume 15 with the orig. titlepages to the volumes. Vol. XV having instead of the titlepage, a sample of the orig. printed wrappers, December issue 1820. Bound at end of volume 2. The memoir, no. 25a below is inserted at the end of volume 2. Some of the memoirs having textillustrations. Some versos of titlepages with stamps.
First appearances of this groundbreaking series of papers and memoirs in which Fresnel established the scientific basis for the wave theory of light and gave the theoretical framework for explaining, in the context of his theory of the transversal nature of lightwaves, the phenomena of double refraction, refraction, dispersion, polarization, interference, diffraction patterns, diffraction fringes as light spreads around objects, etc. He developed mathematically the hypothesis of the wave nature of light and he demonstrates its conformity with experience. His study of light was a dynamic interplay between theory and observation, between mathematics and experiment. - The offered series also comprises the contributions from Arago and the rapports from The French Academy's committees by Ampère, Biot and Fourier - see below nos. 6,11,14,15,a.nd 18.""From the point of view of method, his investigations extended from the manual operations of the laboratory to the most abstract mathematical analyses. Few physicists since Newton had been so versatile.""(Silliman in ""Historical Studies in the Physical Sciences"", vol. 4, p. 155.).""The wave-thory at this time was still encumbered with difficulties. Diffraction was not satisfactorily explained" for polarization no explanation of any kind was forthcoming the Huygenian construction appeared to require two different luminiferous media within double refracting bodies and the universality of that construction had been impugned by Brewster's discovery of biaxial crystals. The upholders of the emission theory, emboldened by the success of Laplace's theory of double refraction, thought the time ripe for their final triunph and as a step to this, in March 1817 they proposed Diffration as the subject of the Academy's prize for 1818. Their expectation was disappointed" and the successful memoir afforded the first of a series of reverses of which, in the short space of seven years, the corpuscular theory was completely owerthrown. The author was Augustin Fresnel...""(Whittaker ""A History of the Theories of Aether & Electricity"", vol. 1, p.107 ff.).""This concept of transverse waves met with the greatest hostility from the scientists of the day, who could not imagine an extremely fluid and rarified ether which at the same time possessed the mechanical properties of a rigid body. Even Arago admitted that he could not follow the exuberant engineer in his ideas. ButFresnel was convinced that at last he had the key to many mysteries, and with his model of waves he gave a full clarification of the phenomena of polarization. With insuperable precision he explained a long series of extremely complicated experiments, such as those of chromatic polarization that Arago himself had discovered by chance in 1811, and which the followers of Newton could not explain in spite of all their efforts. Following this line Fresnel reached the synthesis which is his masterpiece....we must recall the final interpretation that he gave of the famous phenomenon of partial reflection by transparent surfaces, that simple phenomenon which until then had puzzled Grimaldi, Newton, and Huygens, and which in Malus's experiments had unexpectedly acquired a special importencee as it had been compared to the great mystery of double refraction.""(Ronchi ""The Nature of Light"", p. 255 ff.).Comprising:1. Mémoire sur la Diffraction de la lumière, où l'on examine particululièrement le phénomène des franges colorées que présentent les ombres des corps éclairés par un point lumineux. ""Ann.Chim.P."" Tome 1. 1816. With titlepage to vol. 1. Pp. 239-281 and 1 folded engraved plate.2. Extrait d'une Lettre de M. Fresnel à M. Arago, sur l'influence de la chaleur dans les couleurs développées par la polarisation.Tome 4. 1817. With titlepage to vol. 4. Pp. 298-300.3. Lettre de M. Fresnel à M. Arago, sur l'influence du mouvement terrestres dans quelques phénomènes terrestres dans quelques phénoménes d'optique. Tome 9. 1818. With titlepage to vol. 18. Pp. 57-70.4. Note additionelle à la Lettre de M. Fresnel à M. Arago, insérée dans le dernier Cahier des Annales. Tome 9. 1818. Pp. 286-287.5. FRESNEL & ARAGO. Sur l'Action que le rayons de lumiére polarisés exercent les uns sur les autres. Tome 10. 1819. With titlepage to vol. 10. Pp. 288-305. - Also with ""Extrait d'un ouvrage du P. Grimaldi intitulé: Traité physico-mathérmatique de la lumiere des couleurs et de l'iris"". Pp. 306-312.6. ARAGO. Rapport par M. Arago à l'Academie des Sciences, au nom de la Commission qui avait été chargée d'examiner les Mémoires envoyés au concours pour le prix de la diffraction. Tome 11. 1819. With titlepage to vol. 11. Pp. 5-30.7. Mémoire sur la Diffraction de la Lumiere. (Extrait). (This importent Price-Memoir was only printed in full in 1826). Tome 11. 1819. Pp. 246-296.8. Suite Du Mémoire sur la Diffraction de la Lumière. Tome 11. 1819. Pp. 337-378. + Note sur des Essais ayant pour but de décomposer l'eau avec un aimant. Pp. 219-222.9. Note sur des Essais ayant pour but de décomposer l'eau avec un aimant. Tome 15. 1820. Pp. 219-222. No titlepage to vol. 15.10. Résume d'un Mémoire sur la Reflexion de la lumière. Tome 15. 1820. Pp. 379-386. Tome 15 is here represented with the last issue of the year (Decembre 1820, pp. 337-448) and instead of the titlepage having the orig. printed wrappers (bound at end of the second volume).11. ARAGO & AMPÈRE. Rapport fait à l'Academie des Sciences, le lundi 4 juin 1821, sur un Mémoire de M. Fresnel relatif aux couleurs des lames cristallisées douées de la double réfraction. Tome 17. 1821. Titlepage to vol. 17. Pp. 80-102.12. Note sur le Calcul des teintes que la polarisation développe dans les lames cristallisées. Tome 17. 1821. Pp. 102-111.13. IIe Note sur la Coloration des lames cristallisées. Tome 17. 1821. Pp. (167-)196.14. BIOT. Remarques de M. Biot sur un Rapport lu, le 4 juin 1821, à l'Academie des Sciences, par MM. Arago et Ampere. Tome 17. 1821. Pp. 225-258.15. ARAGO. Examen des Remarques de M. Biot. Tome 17. 1821. Pp. 258-273. 16. Addition à la IIe Note insérée dans le Cahier précédent, par M. Fresnel. Tome 17. 1821. Pp. 312-315.17. Note sur les remarques de M. Biot, publiées dans le Cahier précédent. Tome 17. 1821. Pp. 393-403.18. FOURIER, AMPÈRE ET ARAGO. Rapport fait à l'Academie sur un Mémoire de M. Fresnel, relatif à la double réfraction. Commission: Fourier, Ampère et Arago. Tome 20, 1822. With titlepage to vol. 20. Pp. 337-344.19. Note sur la double réfraction du verre comprimé. Tome 20. 1822. Pp. 376-383.20. Explication de la Réfraction dans le système des ondes. Tome 21, 1822. Titlepage to vol. 21. Pp. 225-241. + LAGRANGE. Sur la Théorie de la lumière d'Huygens. Pp. 241-246.21. Sur l'Ascension des nuages dans l'atmosphère. Tome 21, 1822. Pp. 260-263.22. Réponse de M. Fresnel à la Lettre de M. Poisson insérée dans le tome XXII des Annales, p. 270. Tome 23, 1823. Titlepage to vol. 23. Pp. 32-49.23. Note sur le Phénomène des anneaux colorés. Tome 23, 1823. Pp. 129-134.24. Suite de la Réponse de M.A. Fresnel à la Lettre de M. Poisson. Tome 23, 1823. Pp. 113-122.25. Extrait d'un Mémoire sur la double Réfraction particulière que présente le cristal de roche dans la irection de son axe. Tome 28, 1825. Titlepage to vol. 28. Pp. 147-161. + (25 a) Extrait d'un Mémoire sur la double Réfraction. Tome 28, 1825. Pp. 263-279. (According to Buchwald ""The Rise of the Wave Theory opf Light"" , p. 462, these 2 extracts composes the entire memoire.26. Note sur la Répulsion que des corps échauffés exercent les uns sur les autres à des distances sensibles. (Lue à l'Institut le 13 juin 1825). Tome 29, 1825. Titlepage to vol. 29. Pp. 57-62.27. Extrait d'un Mémoire sur la Loi des modifications imprimées à la lumière polarisée par sa réflexion totale dans l'intérieur des corps transparens. Tome 29, 1825. Pp. 175-187. (This paper was never printed in full).
"AMPÈRE, ANDRÉ-MARIE. - DEMONSTRATING THE BOYLE-MARIOTTE LAW OR AMPÈRES GAS LAW.
Reference : 45113
(1815)
Paris, Crochard, 1815. Contemp. hcalf. Spine gilt. Slightly rubbed. A few scratches to binding. Wear to top of spine. Small stamps on verso of titlepage.In: ""Annales de Chimie, ou Recueil de Mémoires concernant la Chemie"" Tome 94. 336 pp. a. 1 plate (the plate in facs., not belonging to Ampere's paper). Ampere's paper: pp. Some scattered brownspots.
First appearance of Amperes second paper on molecular physics.""The noumenal aspect of chemistry fascinated Ampère. Although his derivation of Avogadro’s law came three years after Avogadro had enunciated it, the law is known today in France as the Avogadro-Ampère law. This was Ampère’s first excursion into molecular physics, and was followed almost immediately by a second. In 1815 he published a paper demonstrating the relation between Mariotte’s (Boyle’s) law and volumes and pressures of gases at the same temperature. The paper is of some interest as a pioneer effort, along with Laplac’s great papers on capillarity, in the application of Mathematical analysis to the molecular realm.""(DSB).The volume contains 3 importent papers by Jean-Baptiste Biot on polarisation of light and Berzelius ""Experiences pour déterminer les proportions définies, dans lequelles les élémens de la nature organique sont combinés"" + ""Suite..."" 1-2, pp. 5-33, pp. 170-190 a. pp. 296-232
"AMPÈRE, ANDRÉ-MARIE. - THE NEW ELECTRIC MOTOR AND AMPÉRE'S ""FORCE LAW""
Reference : 48224
(1822)
(Paris, Crochard, 1822). No wrappers. In: ""Annales de Chimie et de Physique, Par MM. Gay-Lussac et Arago."", Tome 20 (Premier Cahier) Pp. (5-) 112 a. 1 engraved plate. (Entire issue offered). Ampère's paper: pp. 60-74 a. 1 engraved folded plate depicting apparatus. Some brownspots to the plate.
First apperance of this importent paper in which Ampère his creation of a new kind of electric motor where he succeeded in spinning a cylindrical magnet around its axis by connecting it to a battery generating a steady current.With the invention of the battery (Allessandro Volta, 1800), the generation of a magnetic field from electric current (Hans Christian Oersted, 1820) the foundation for building electric motors was laid.Togetner with this paper comes the importent paper in which Ampère introduced his ""LAW OF FORCE"", the force which exists between two current elements. - Extract from the same volume of ""Annalen"", pp. 398-421. The text refers to the plate attached to the first paper offered here.