‎LA MATIERE-ESPACE-TEMPS‎

‎Fayard. 1986. In-8. Broché. Bon état, Couv. convenable, Dos satisfaisant, Intérieur frais. 400 pages. Illustré de nombreux schémas et graphiques en noir et blanc dans le texte et de photos en couleur hors texte.. . . . Classification Dewey : 530-Physique‎

‎'Le Temps des sciences'. La logique des particules élémentaires. Classification Dewey : 530-Physique‎

‎La matière-espace-temps. La logique des particules élémentaires.‎

‎Fayard, 1986, gr. in-8vo, 400 p., brochure originale.‎

‎New Developments in Particle Acceleration Techniques - 2 volumes (complete) - Proceedings of a Workshop held at Orsay (France), 29 June - 4 July 1987 (Accélération des particules)‎

‎CERN and ECFA Malicorne sur Sarthe, 72, Pays de la Loire, France 1987 Book condition, Etat : Bon paperback, editor's green wrappers, illustrated by a castle of the University of Orsay In-4 2 vol. - 732 pages‎

‎ 1st edition Contents, Chapitres : Volume 1. Abstract, List of members with general photography, Foreword, Contents, xvi, Text, 342 pages - Volume 2. Abstract, Contents, viii, Text, pages 343 to 708 - Invited papers - Semi-conventional high-frequency linacs - Transformer acceleration mechanisms - Acceleration using plasma - e+e- sources, low emittance production and preservation - Final focus and interaction point - New ideas - Closing round-table discussion near fine copy, light decoloration of the wrappers on the border, inside is clean, few paper-clip tracks on the top of 3-4 pages, the top corner of volume 2 is lightly folded, it remains a near fine set‎

‎Approximations dans les mesures physiques et dans les calculs numériques qui s'y rattachent‎

‎P., Vuibert, 1906, un volume in 8 relié en demi-basane marron, dos orné de filets dorés (reliure de l'époque), 8pp., 380pp.‎

‎---- EDITION ORIGINALE ---- Généralités sur la mesure des grandeurs - Calcul numérique des inconnues en fonction des données - Opérations arithmétiques abrégées - Emploi de la règle à calcul - Des erreurs - Lois physiques - Méthodes graphiques - Conditions auxquelles doivent satisfaire les mesures expérimentales - Sensibilité des appareils de mesure - Elimination des erreurs systématiques des appareils de mesure - Mesures des longueurs, des masses, des angles, des températures - Le pendule et la mesure du temps - La densité - La dilatation - La calorimétrie - Indices de réfraction - Systèmes optiques - Mesure des pressions**1285/N5DE‎

‎De frie Vandspeilsformer i Ledninger med constant Vandføring. Med 3 lithographerede Tavler. (Særskilt aftrykt af det Kgl. Danske Videnskabernes Selskabs Skrifter, 5te Række, naturvidensk. og Matem. Afdeling, 6te. Bind.).‎

‎Kjöbenhavn (Copenhagen), 1863. 4to. Unbound with marbledpaper back-strip. Top right corner of first two leaves slightly bended. Waterstain to lower half of the last three plates. Tiny worm holes to plates. 95 pp. + three lithographic plates.‎

‎First edition, off-print (separately paginated), of Colding's contribution to water level in loops with constant water flow.His works with the construction of sewers were the cause of his studies of water movement in closed loops. This led him to the realization of the variation of the coefficient of resistance with flow velocity, a similar result reached by Julius Weisbach. While studying these topics he founded the principles which the later constructed sewage system in Copenhagen was based upon. He expanded the use of these studies to also encompass studies of the free water table forms and currents in the ocean. Ludvig August Colding (1815 - 1888) was a famous Danish engineer and physicist. He was originally educated as a carpenter but graduated as mechanical engineer in 1841. In 1845 he became water-inspector in Copenhagen and in 1847 he was also given the responsibility of the gas- and waterworks. Together with the famous chemist Julius Thomsen, he proved that the cholera spread throughout Copenhagen through the drinking water (1853) - a most significant discovery. After this he was responsible replacing much of the sewer-system of Copenhagen. In 1857 he became state engineer. During this period he overhauled the desperately inadequate water and sanitation system. He articulated the principle of conservation of energy contemporaneously with, and independently of, James Prescott Joule and Julius Robert von Mayer though his contribution was largely overlooked and neglected. ‎

‎De frie Vandspeilsformer i Ledninger med constant Vandføring. Med 3 lithographerede Tavler. (Extract from: Kgl. Danske Videnskabernes Selskabs Skrifter, 5te Række, naturvidensk. og Matem. Afdeling, 6te. Bind.).‎

‎(Kjöbenhavn, Copenhagen, 1863). 4to. Unbound. Uncut and unopened with a slight miscolouring to top of title-page. Internally nice and clean. 95 pp. + three lithographic plates.‎

‎First edition of Colding's contribution to water level in loops with constant water flow.His works with the construction of sewers were the cause of his studies of water movement in closed loops. This led him to the realization of the variation of the coefficient of resistance with flow velocity, a similar result reached by Julius Weisbach. While studying these topics he founded the principles which the later constructed sewage system in Copenhagen was based upon. He expanded the use of these studies to also encompass studies of the free water table forms and currents in the ocean. Ludvig August Colding (1815 - 1888) was a famous Danish engineer and physicist. He was originally educated as a carpenter but graduated as mechanical engineer in 1841. In 1845 he became water-inspector in Copenhagen and in 1847 he was also given the responsibility of the gas- and waterworks. Together with the famous chemist Julius Thomsen, he proved that the cholera spread throughout Copenhagen through the drinking water (1853) - a most significant discovery. After this he was responsible replacing much of the sewer-system of Copenhagen. In 1857 he became state engineer. During this period he overhauled the desperately inadequate water and sanitation system. He articulated the principle of conservation of energy contemporaneously with, and independently of, James Prescott Joule and Julius Robert von Mayer though his contribution was largely overlooked and neglected. ‎

‎Undersøgelse over Vanddampene og deres bevægende Kraft i Dampmaskinen [Investigation of the Water Steams and their Moving Power in the Steam Engine]. (Særskilt aftrykt af det Kgl. Danske Videnskabernes Selskabs Skrifter, 5te Række, naturvidenskabelig ... - [THE STEAM ENGINE - PRESENTATION-COPY]‎

‎Kjöbenhavn (Copenhagen), 1852. 4to. Original blue-green blank glitted gift-binding. Wear to spine with loss of paper, otherwise just a bit of wear to extremities. Internally a bit of occasional brownspotting. Stamps to title-page. 35 pp.‎

‎First edition, off-print (separately paginated), presentation-copy, of Colding's major contribution to the development of the steam engine. The hand-written presentation on front free end-paper reads as thus: ""Høivelbaarne/ Hr. General-Major Schlegel C. af D. pp./ med høiagtelse/ fra/ Forfatteren."" [Honoured/ Mr. General v. Schlegel C. of D. pp. (honorary title)/ with high estimation/ from/ the author.].Ludvig August Colding is primarily remembered today for, together with Meyer, Joule, and Helmholtz, having determined the principle of Conservation of Energy. His final major contribution to this discovery consists in the publication of his elaborated experiments which once and for all determined the accuracy of his assumption (that no amount of energy gets lost, since what is apparently lost in energy will be found in other places or in different forms, e.g. heat) (1850). Two years after that seminal publication, he publishes his main contribution to the development of the steam engine, namely his ""Investigation of the Water Steams and their Moving Power in the Steam Engine"" (1850), which is obviously based on his determination of the principle of conservation and alteration of energy.Colding was a famous Danish engineer and physicist. He was originally educated as a carpenter but graduated as mechanical engineer in 1841. In 1845 he became water-inspector in Copenhagen and in 1847 he was also given the responsibility of the gas- and waterworks. Together with the famous chemist Julius Thomsen, he proved that the cholera spread throughout Copenhagen through the drinking water (1853) - a most significant discovery. After this he was responsible replacing much of the sewer-system of Copenhagen. In 1857 he became state engineer. He was also a member of the Academy of Sciences and honorary doctor at the University of Edinburgh.His work on the power of water-stem in the steam engine is considered one of his most significant.‎

‎Undersøgelse over Vanddampene og deres bevægende Kraft i Dampmaskinen [Investigation of the Water Steams and their Moving Power in the Steam Engine]. (Særskilt aftrykt af det Kgl. Danske Videnskabernes Selskabs Skrifter, 5te Række, naturvidenskabelig ... - [THE STEAM ENGINE]‎

‎Kjöbenhavn (Copenhagen), 1852. 4to. Original blank wrappers. Uncut and unopened. Printed on vellum-paper. Mint copy. 35 pp.‎

‎First edition, off-print (separately paginated) of Colding's major contribution to the development of the steam engine. Ludvig August Colding is primarily remembered today for, together with Meyer, Joule, and Helmholtz, having determined the principle of Conservation of Energy. His final major contribution to this discovery consists in the publication of his elaborated experiments which once and for all determined the accuracy of his assumption (that no amount of energy gets lost, since what is apparently lost in energy will be found in other places or in different forms, e.g. heat) (1850). Two years after that seminal publication, he publishes his main contribution to the development of the steam engine, namely his ""Investigation of the Water Steams and their Moving Power in the Steam Engine"" (1850), which is obviously based on his determination of the principle of conservation and alteration of energy.Colding was a famous Danish engineer and physicist. He was originally educated as a carpenter but graduated as mechanical engineer in 1841. In 1845 he became water-inspector in Copenhagen and in 1847 he was also given the responsibility of the gas- and waterworks. Together with the famous chemist Julius Thomsen, he proved that the cholera spread throughout Copenhagen through the drinking water (1853) - a most significant discovery. After this he was responsible replacing much of the sewer-system of Copenhagen. In 1857 he became state engineer. He was also a member of the Academy of Sciences and honorary doctor at the University of Edinburgh.His work on the power of water-stem in the steam engine is considered one of his most significant.‎

‎Undersøgelse over Vanddampene og deres bevægende Kraft i Dampmaskinen [Investigation of the Water Steams and their Moving Power in the Steam Engine]. (Extract from: Kgl. Danske Videnskabernes Selskabs Skrifter, 5te Række, naturvidenskabelig og Matemat... - [THE STEAM ENGINE]‎

‎(Kjöbenhavn [Copenhagen], 1853). 4to. Unbound. Uncut and unopened. A nice and clean copy. 35 pp.‎

5 Images

‎First edition of Colding's major contribution to the development of the steam engine. Ludvig August Colding is primarily remembered today for, together with Meyer, Joule, and Helmholtz, having determined the principle of Conservation of Energy. His final major contribution to this discovery consists in the publication of his elaborated experiments which once and for all determined the accuracy of his assumption (that no amount of energy gets lost, since what is apparently lost in energy will be found in other places or in different forms, e.g. heat) (1850). Two years after that seminal publication, he publishes his main contribution to the development of the steam engine, namely his ""Investigation of the Water Steams and their Moving Power in the Steam Engine"" (1850), which is obviously based on his determination of the principle of conservation and alteration of energy.Colding was a famous Danish engineer and physicist. He was originally educated as a carpenter but graduated as mechanical engineer in 1841. In 1845 he became water-inspector in Copenhagen and in 1847 he was also given the responsibility of the gas- and waterworks. Together with the famous chemist Julius Thomsen, he proved that the cholera spread throughout Copenhagen through the drinking water (1853) - a most significant discovery. After this he was responsible replacing much of the sewer-system of Copenhagen. In 1857 he became state engineer. He was also a member of the Academy of Sciences and honorary doctor at the University of Edinburgh.His work on the power of water-stem in the steam engine is considered one of his most significant.‎

‎Naturvidenskabelige Betragtninger over Slaegtskabet mellem det aandelige Livs Virksomheder og de almindelige Naturkraefter. [i.e. ""Scientific Reflections on the Relationship between the Intellectual Life's Activity and the General Forces of Nature""]. - [PRESENTATION-COPY]‎

‎Copenhagen, 1856. 8vo. Bound with the original blank glitted front wrapper in contemporary boards with cloth back-strip. Stamp to title-page. A bit of overall wear and minor brown-spotting. 15 pp.‎

‎Rare first edition, presentation-copy, of colding's highly interesting first work on the philosophical and religious aspects of his discovery of the principle of conservation of energy, which is of importance for his discussions of joule's experiments and for his priority dispute with mayer, independently of and simultaneusly with both of whom he discovered the principle of conservation of energy. Presentation inscription from the author (""Hr. Generalmajor v. Schlegel / ærbødigt fra A. Colding"") [i. e. ""Mr. General Major v. Schlegel / Yours faithfully A. Colding""] to verso of the original front wrapper.Ludvig August Colding (1815 - 1888) was a famous Danish engineer and physicist. He was originally educated as a carpenter but graduated as mechanical engineer in 1841. In 1845 he became water-inspector in Copenhagen and in 1847 he was also given the responsibility of the gas- and waterworks. Together with the famous chemist Julius Thomsen, he proved that the cholera spread throughout Copenhagen through the drinking water (1853) - a most significant discovery. After this he was responsible for replacing much of the sewer-system of Copenhagen. In 1857 he became state engineer. During this period he overhauled the desperately inadequate water and sanitation system. He articulated the principle of conservation of energy contemporaneously with, and independently of, James Prescott Joule and Julius Robert von Mayer though his contribution was largely overlooked and neglected.""The Philosophical and religious side of Colding's thesis was first elaborated in his cumbersome treatise of 1856, ""Naturvidenskabelige Betragtninger over Slaegtskabet mellem det aandelige Livs Virksomheder og de almindelige Naturkraefter"" (""Scientific Reflections on the Relationship between the Intellectual Life's Activity and the General Forces of Nature""), his last paper on this topic to the Danish Society of Sciences"" it was published on the occasion of his being elected member of the Society. It stressed his own philosophical conviction and dwelt at length on the relationship between the material and the spiritual in nature, clearly echoing the intellectual and aesthetic influence of Oersted and in a tone reminiscent of Kant and Schelling. This paper is also of interest for Colding's discussions of Joule's experiments, with which he was acquainted by then, and for his passionate priority dispute with Mayer."" (Dictionary of Scientific Biography, 15 & 16, s. 86) ‎

‎Undersögelse om de almindelige Naturkræfter og deres gjensidige Afhængighed og i særdeleshed om den ved visse faste Legemers Gnidning udviklede Varme [Survey on the Universal Forces of Nature and their Mutial Dependence and especially about the Heat t... - [THE EXPERIMENTS THAT ESTABLISHED THE PRESERVATION OF ENERGY]‎

‎Copenhagen. 1850. 4to. Uncut and unopened. No wrappers. Plates loose. Very nice and clean. Pp. (121) - 188 + four plates.‎

‎First edition of these absolutely fundamental papers, by the (co-)discoverer of the principle of Conservation of Energy, prove Colding's assumption of ""the imperishability of nature"" and present for the first time in printing his elaborate experiments on the subject, contributing significantly to the cementation of his version of the principle of Conservation of Energy. Ludvig August Colding (1815 - 1888) was a famous Danish engineer and physicist. He was originally educated as a carpenter but graduated as mechanical engineer in 1841. In 1845 he became water-inspector in Copenhagen and in 1847 he was also given the responsibility of the gas- and waterworks. Together with the famous chemist Julius Thomsen, he proved that the cholera spread throughout Copenhagen through the drinking water (1853) - a most significant discovery. After this he was responsible replacing much of the sewer-system of Copenhagen. In 1857 he became state engineer. During this period he overhauled the desperately inadequate water and sanitation system. He articulated the principle of conservation of energy contemporaneously with, and independently of, James Prescott Joule and Julius Robert von Mayer though his contribution was largely overlooked and neglected.His work on the power of water-stem in the steam engine is considered one of his most significant.The principle of Conservation of Energy was discovered and proven independently and practically simultaneously by Colding, Meyer, Joule, and Helmholtz. As the other three, Colding had discovered the principle in the early 1840'ies, but up until 1843 (where he publishes his first breakthrough article on the subject), Colding's experiments had suggested that no force seems to be disappearing but merely undergoes a transformation, whereupon it becomes effective in other forms. On H.C. Oersted's recommendation (Colding was Oersted's assistent in their experiments with the heating of compressed water), however, Colding carried out a more elaborate version of his experiments, which made him able to verify his assumption that led to his principle of Conservation of Energy with much greater certainty. These new results were reported at the 1847 meeting of Scandinavian Scientists and published in 1850 as the two first papers present here.Mayer's famous ""Bemerkungen über das mechanische Aequivalent der Wärme"" was published a year after Colding's papers, 1851.‎

‎Physique universelle. tome1, Unification des forces fondamentales.‎

‎Caen : M. Colin, 1984. in-8 (22 cm), III-126 p. : ill., broche, couv.‎

‎Bel exemplaire [MI-16] ‎

‎Mémoire sur la compression des liquides et la vitesse du son dans l'eau (1827) ; Relié avec : COLLARDON (D.). Sur la transmission des sons dans l'eau (1841)‎

‎Genève, Schuchardt, 1887, un volume in 4, broché, couverture imprimée, 90pp., 5 planches‎

‎---- EDITION ORIGINALE - "Collardon, physicien et ingénieur suisse (1802/1893), professeur de mécanique à l'Ecole centrale de Paris, puis à l'université de Genève, est l'auteur d'une mesure de la vitesse du son dans l'eau, effectuée avec Sturm, mathématicien français. Cette expérience corrobore les résultats théoriques de Poisson"**1292/L5AR‎

‎Réflexions sur les propriétés mécaniques des fontes grises. Testament d’un fondeur.‎

‎Fribourg, Imprimerie Saint-Paul, 1975, in-8vo, 450 p., avec article tiré de ‘La Gruyère’ concernant la famille de l’auteur noté par Nico Blanc, sur garde timbre rouge ‘Nico Blanc’ et notice biographique de l’auteur par la main de l’ancien proprietaire, demi-cuir (relié par Ernst Gutmann à Fribourg).‎

‎1979 IMAGES DE LA PHYSIQUE- SUPPLEMENT AU N°35 DU COURRIER DU CNRS- Un nouvel état pour 3 He: l'état nucléairement orienté- L'ordre orientationnel dans l'hydrogène solide- La molécule excitonique- Spectroscopie de muons positifs...‎

‎BERGER LEVRAULT. 1980. In-4. Broché. Très bon état, Couv. convenable, Dos satisfaisant, Intérieur frais. 102 pages- nombreux croquis, graphiques, schémas, tableaux dans et hors texte. . . . Classification Dewey : 530-Physique‎

‎Un nouvel état pour 3 He: l'état nucléairement orienté- L'ordre orientationnel dans l'hydrogène solide- La molécule excitonique- Spectroscopie de muons positifs- Polarisation de la lumière et électrons polarisés-...- Physique des neutrinos- Recherche d'une violation de la parité en physique atomique-...- Spectroscopie du francium- Etats de Rydberg et ondes millimétriques- Photoionisation des atomes en présence d'un champ électrique- Une réaction chimique pour physiciens : la collision d'un atome dans un état de Rydberg sur une molécule- Collisions radiatives- La diffusion Raman cohérente... Classification Dewey : 530-Physique‎

‎91e ANNEE - N°792 - CAHIER N°1 - PUBLICATION MENSUELLE - MARS 1997 - BULLETIN DE L'UNION DES PHYSICIENS‎

‎ADMINISTRATION ET REDACTION. 1997. In-8. Broché. Bon état, Couv. convenable, Dos satisfaisant, Intérieur frais. 355 à 624 + 16 + XXIV pages. . . . Classification Dewey : 530-Physique‎

‎Sommaire : Olympiade de physique, BUP pratique, Regards européens, Parlons sécurité : Explosions dans les réfrigérateurs, Internet et les classes préparatoires... Classification Dewey : 530-Physique‎

‎AGENDA DUNOD 1942. CHIMIE.‎

‎DUNOD. Non daté. In-18. Cartonné. Bon état, Couv. convenable, Dos satisfaisant, Intérieur acceptable. 389 + 87 pages. Quelques illustrations en noir et blanc hors texte.. . . . Classification Dewey : 530-Physique‎

‎ Classification Dewey : 530-Physique‎

‎AIDE MEMOIRE PHYSIQUE INDUSTRIELLE.‎

‎DUNOD. 1955. In-12. Broché. Etat d'usage, Couv. légèrement passée, Dos satisfaisant, Intérieur frais. Environ 550 pages. Graphiques et schémas dans le texte.. . . . Classification Dewey : 530-Physique‎

‎ Classification Dewey : 530-Physique‎

‎ANALYSEUR RADIO-ACTIF DE LIQUIDE RAJ-1‎

‎Machpriborintorg. Non daté. In-4. En feuillets. Etat d'usage, Livré sans Couverture, Dos satisfaisant, Déchirures. Plaquette de 2 pages. Texte en russe, anglais, français.. . . . Classification Dewey : 530-Physique‎

‎ Classification Dewey : 530-Physique‎

‎ANNABAC 82, SCIENCES PHYSIQUES, D, D'‎

‎Hatier. 1982. In-8. Broché. Bon état, Couv. convenable, Dos satisfaisant, Intérieur acceptable. 143 pages.. . . . Classification Dewey : 530-Physique‎

‎Les sujets de juin 1982 et sept. 1981. Des sujets complémentaires... Classification Dewey : 530-Physique‎

‎ANNABAC 91, SCIENCES PHYSIQUES, C, E‎

‎Hatier. 1990. In-8. Broché. Etat d'usage, Couv. défraîchie, Dos satisfaisant, Intérieur acceptable. 205 pages.. . . . Classification Dewey : 530-Physique‎

‎Les sujets de juin 1990 et sept. 1989. Des sujets complémentaires... Classification Dewey : 530-Physique‎

‎ANNABAC, 93, SCIENCES PHYSIQUES C, E‎

‎Hatier. 1992. In-8. Broché. Bon état, Couv. convenable, Dos satisfaisant, Intérieur frais. 218 pages.. . . . Classification Dewey : 530-Physique‎

‎Tous les sujets de sept. 1991 et juin 1992. Classification Dewey : 530-Physique‎

‎ANNABAC, 93, SCIENCES PHYSIQUES D, D'‎

‎Hatier. 1992. In-8. Broché. Etat d'usage, 2ème plat abîmé, Dos satisfaisant, Intérieur bon état. 249 pages. 2e plat manquant.. . . . Classification Dewey : 530-Physique‎

‎Tous les sujets de sept. 1991 et juin 1992. Classification Dewey : 530-Physique‎

‎ANNABAC 94, SCIENCES PHYSIQUES, C, E‎

‎Hatier. 1993. In-8. Broché. Etat d'usage, Couv. défraîchie, Dos satisfaisant, Intérieur acceptable. 217 pages.. . . . Classification Dewey : 530-Physique‎

‎Les sujets de juin 1993 et sept. 1992. Des sujets complémentaires... Classification Dewey : 530-Physique‎

‎ANNABAC, 96, PHYSIQUE CHIMIE S‎

‎Hatier. 1995. In-8. Broché. Bon état, Couv. légèrement passée, Dos satisfaisant, Intérieur frais. 211 pages.. . . . Classification Dewey : 530-Physique‎

‎Les sujets France et étranger de juin 1995 et sept. 1994. Classification Dewey : 530-Physique‎