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Carte postale autographe signée adressée au Professeur Ludwig Hopf
Zurich 21 juin 1910, 9x14cm, une carte postale.
| Einstein écrit à «l'ami des plus grands génies de son temps» | Carte postale autographe signée d'Albert Einstein adressée à Ludwig Hopf, 18 lignes écrites au verso et recto, adresse également de la main d'Einstein. Tampon postal indiquant la date du 21 juin 1910. Publiée dans The Collected Papers of Albert Einstein, Volume 5: The Swiss Years: Correspondence, 1902-1914, Princeton University Press, 1993, n°218, p. 242. *** Exceptionnelle et très esthétique carte d'Albert Einstein à «l'ami des plus grands génies de son temps» -selon Schrödinger -le mathématicien et physicien Ludwig Hopf, qui permit la rencontre d'Einstein avec un autre génie du XXe siècle : Carl Jung. Le maître invite ici son élève à un dîner comptant au nombre des invités le scientifique Max Abraham, futur grand rival des années zurichoises et fervent opposant à la théorie de la relativité d'Einstein. Le destinataire de cette carte, Ludwig Hopf, rejoint Einstein en 1910 en tant qu'assistant et élève à ses séminaires de physique et de théorie cinétique à l'Université de Zürich. Ils signent deux articles fondamentaux sur les aspects statistiques de la radiation et donnent leurs noms à la force de résistance «Einstein-Hopf». Leurs échanges épistolaires retracent le complexe cheminement des travaux d'Einstein sur la relativité et la gravitation, témoignant de leur grande complicité et du précieux apport de Hopf dans les recherches du maître. Quelques mois après l'écriture de cette missive, Hopf trouvera même une erreur dans les calculs d'Einstein sur les dérivées de certaines composantes de la vitesse que ce dernier corrigera dans un article l'année suivante.Ils forment également un duo musical et interprètent les grands génies de la musique, Hopf accompagnant au piano le violon du maître sur des morceaux de Bach et Mozart. Einstein invite par cette carte son élève et ami Hopf à un dîner avec Max Abraham, à l'aube d'une controverse scientifique majeure qui les opposera à partir de 1911. La théorie de la relativité restreinte selon Abraham ne convaincra pas Einstein qui soulignera le peu de moyens de vérification par l'observation et son manque de prédiction de la courbure gravitationnelle de la lumière. En 1912, leur différend deviendra public par publications interposées. Abraham ne reconnaîtra jamais la validité de la théorie einsteinienne. Au cours de leurs brillants échanges artistiques et intellectuels, Hopf a sans doute réussi là où Freud avait échoué comme il lui avouera dans une lettre:«Je romprai avec vous si vous vous glorifiez d'avoir converti Einstein à la psychanalyse. Une longue conversation que j'ai eue avec lui il ya quelques années m'a montré que l'analyse lui était tout aussi hermétique que peut m'être la théorie de la relativité.»(Vienne, 27 septembre 1931).Fervent adepte de la psychanalyse, Hopfest en effet connu pour avoir présentéle célèbre psychanalyste Carl Jung à Einstein. Hopf et son maître partiront tous deux pour l'Université Karl-Ferdinand de Prague en 1911, où ils fréquenteront l'écrivain Franz Kafka et son fidèle ami Max Brod dans le salon de Mme Fanta. Avec l'avènement du régime nazi, les destins de cesdeux théoriciens de la mécanique du mondeseront marqués par les persécutions et l'exil, Einstein se réfugiant tout d'abord en Belgique, Hopf en Grande-Bretagne après sa mise à pied en 1934 de l'université d'Aix-la-Chapelle à cause de ses origines juives. Les deux savants continueront àentretenir une prolifique correspondance au cur de la tourmente, Einstein suggérant à Hopf l'ouverture d'une université à l'étranger pour les étudiants allemands exilés. Hopf s'éteindra peu de temps après avoir prisla chaire de mathématiques duTrinity College deDublin en juillet 1939. Précieuse invitation du grand physicien à l'ultime dîner réunissant la "vieille école" scientifique symbolisée parMax Abraham, à l'aube de la publication de la théorie de la relativité générale, qui bouleversera les conceptions classiques de l'espace et du temps et propulsera la Science dans le XXe siècle. "Lieber Herr Hopf, ich hatte bei unserer Verabredung vergessen, dass ich morgen 6 Uhr Fakultätssitzung habe. Deshalb habe ich Herrn Abraham für morgen nach der [biffé :Vorlesung] Sitzung zum Abendessen gebeten (halb 8 Uhr). Ich bitte Sie, auch zu kommen. Herrn Rusch werde ich auch einladen und wahrscheinlich Herrn Prof[essor] Zermelo. Mit besten Grüssen / Ihr Einstein" "Cher Monsieur Hopf, j'avais oublié lors de notre rendez-vous que j'avais une réunion de faculté demain à 6 heures. C'est pourquoi j'ai demandé à Monsieur Abraham de venir dîner demain après la [biffé :conférence] séance (7h30). Je vous prie de venir également. J'inviterai également Monsieur Rusch et probablement Monsieur le Prof[essor] Zermelo. Avec mes meilleures salutations / Votre Einstein" - Photos sur www.Edition-originale.com -
Über die Interferenzeigenschaften des durch Kanalstrahlen emittierten Lichtes [Einstein] (+) Über die Interferenzeigenschaften des Kanalstrahllichtes [Rupp]. Offprint from ""Sitzungsberichte der Preussischen Akademie der Wissenschaften"", XXV, 1926. - [THE GREATEST SCANDAL IN PHYSICS - AUTHOR'S PRESENTATION OFFPRINT ISSUE]
1926. Royal8vo. Author's presentation offprint with the printed presentation statement on top of frontwrapper ""Überreicht von den Verfassern"" [i.e. ""Given by the authors""]. Original printed wrappers. Front wrapper loose, but fully intact. ""Chilpp 202"" and ""Recdese 160"" written in hand to top of front wrapper. A very fine and clean copy. Pp. 334-351.
First edition, in the scarce author's presentation offprint issue, of this important paper, which contains Einstein's theories on wave-particle duality and German physicist Rupp's work on the same subject, seemingly to corroborating Einstein's theories. Rupp's experimental results later turned out to have been falsifications, and today he is mainly known as the protagonist in one of the biggest scandals in physics in the 20th century.Rupp published a number of papers on the interference properties of light emitted by canal ray sources. These articles, particularly the present that came into being in close collaboration with Albert Einstein, attracted quite a lot of attention, as they probed the wave versus particle nature of light. They also significantly propelled Rupp's career, even though they were considered highly controversial to begin with.In April 1926, Albert Einstein proposed to Emil Rupp to carry out two experiments that were to prove the wave nature of light versus the particle nature of light: the so-called 'Wire Grid Experiment' and the 'Rotated Mirror Experiment', experiments that Einstein had worked on theoretically and now would like to gain confirmation of through experiments. Rupp, at the time regarded as one of the most important and most competent experimental physicists, gladly took up the challenge. Rupp's observations - though highly controversial - confirmed Einstein's theory. Due to the surprising outcome of the experiments, Einstein was interested in exactly how it they were conducted, as Rupp's initial descriptions did not convince him that the results were feasible.""Rupp stood by his observations and suggested yet other circumstances that might explain them. Did Einstein now realize that there was something rather dubious about Rupp's work? He had seen him change his data repeatedly-and each time in better accordance with his own criticism, and on one occasion in no less than two days. He had had to accept that Rupp claimed to earlier have ""unknowingly"" or ""unconsciously"" rotated a mirror, and he will likely have seen that Rupp's work was highly controversial amongst experimentalists, leading to very public criticism in Die Naturwissenschaften. He himself was now also convinced that, in fact, Rupp's results were incomprehensible. So, did Einstein choose to suspend the publication of Rupp's piece, so that an additional round of checks and balances could take place? The answer is no: Rupp's paper was presented by Einstein to the Prussian Academy in a session on 21 October 1926, and it appeared in print in the Academy's proceedings in November of 1926-the articles by Einstein and Rupp came out back to back, and reprints circulated with both papers bound together, with a joint cover page that displayed both titles. Einstein referred in his article to Rupp's claims and he had even written the abstract of Rupp's paper"" (Dongen: ""Emil Rupp, Albert Einstein and the Canal Ray Experiments on Wave-Particle"").The first clear indication that Rupp's work was impossible to recreate came in 1930 in a paper published by Staub - nothing was wrong with Einstein's theory but Rupp's work was simply impossible: ""Rupp immediately set out to respond to Straub's publication. On 12 July 1930 he sent a first draft to Einstein, to whom he also announced his intention of redoing his canal ray experiments-Straub was dismissed as a clumsy graduate student with a lousy apparatus. Einstein suggested inviting Straub once Rupp had his experiment up and running again, but cautioned him not to engage the polemic in too sharp a tone"". Rupp managed to convince the physics society and continued to publish the new few years. In 1934 various different physicians pointed out that Rupp's work was impossible to recreate, and in 1935 the final blow to Rupp's career came about, when the German Physical Society's decided not to allow any citations of Rupp's work. This seems to have had very severe consequences, as today it is almost impossible to find any quotations - or even mentioning of Rupp in general, let alone his fraud - in any historical studies of either quantum theory or of Einstein.Despite the unquestionable fraud by Rupp, his experiments and collaboration with Einstein might have had a positive influence on the further progression to quantum mechanics. The two present papers became of seminal importance in the discussions between Bohr and Heisenberg, which eventually in 1927 resulted in Heisenberg publishing his landmark thesis on the uncertainty principle. When Max Born received the Nobel Prize in physics he stated that: ""An idea of Einstein gave me the lead [From the present paper]. He had tried to make the duality of particles-light quanta or photons-and waves comprehensible by interpreting the square of the optical wave amplitudes as probability density for the occurrence of photons.""Boni 160" Weil 153.
"EINSTEIN, ALBERT. - THE FIRST EXPLICIT STATEMENT OF THE ENERGY-MASS EQUATION !!
Reference : 47457
(1907)
Über die vom Relativitätsprincip geforderte Trägheit der Energie. (On the Inertia of Energy Required by the Relativity Principle).
Leibzig, Johann Ambrosius Barth, 1907. 8vo. Contemp. hcalf. Spine gilt. Title-and tomelabels with gilt lettering. Slightly rubbed. In ""Annalen der Physik"", Vierte Folge, Band 23. VIII,1000 pp. a. 4 plates. (The entire volume offered). Einstein's paper: pp.371-384. A small stamp on titlepage (Gmelin.Institut.). Internally clean and fine.
First edition of the first explicit statement of Einstein's energy-mass equation E=mc2.Nearly all descriptions of Einstein's scientific work state that the mass-energy equivalence E=mc2 was first formulated in Einstein's 1907 review paper 'Über das Relativitätsprinzip und die aus demselben gezogenen.' published in 'Jahrbuch der Radioaktivität und Elektronik' (see Weil no. 21 and Dictionary of Scientific Biography, vol. 4 pp.323 for examples). However, in his paper 'Über die von Relativitätsprincip geforderte Trägheit der Energie' [the offered paper] which predates the former mentioned by six months, Einstein gave a clear statement of the mass-energy equivalence E=mc2. See Lanczos: The Einstein Decade, pp.149-150 and 153 as well as Volume 2 of 'The Collected Papers of Albert Einstein' pp. 428.Einstein's first paper regarding the relation E=mc2 is his fourth 1905 paper, 'Ist die Trägheit eines Körpers von seinem Energieinhalt abhängig?'. In this short paper Einstein showed that a body releasing the energy E in the form of radiation will have its mass decreased by E/c2, and concluded that the mass of a body is a measure of its energy content, e.g., that all energy has mass. The next time Einstein returns to the subject is in his 1906 paper 'Das Prinzip von der Erhaltung der Schwerpunkts Bewegung und die Trägheit der Energie.'. Here Einstein concluded that one must either ascribe the inertial mass E/c2 to any form of energy E or else give up the fundamental law mechanics regarding conservation of the motion of the center of gravity. Then finally in the 1907 paper 'Über die von Relativitätsprincip geforderte Trägheit der Energie.' [the offered paper] Einstein makes the decisive step of assuming that all mass has energy. On page 382 Einstein considers the total energy of a moving mass point as the sum of its kinetic energy and its rest energy. In classical mechanics it is most convenient to set the second term to zero but in relativistic mechanics one obtains the simplest expression by setting the rest energy equal to mc2. Einstein then continues to show that this stipulation cannot lead to a contradiction in any relativistic argument. In a footnote on page 382 Einstein states for the first time the equation E=mc2 and mentions that this equation is the expression of the principle of the equivalence of mass and energy - see Volume 2 of 'The Collected Papers of Albert Einstein' pp. 428.The volume contains another paper by Einstein ""Bemerkungen zu der Notiz von Hrn. Paul Ehrenfest: ""Die Translation deformierbarer Elektronen und der Flächensatz"""", pp.206-208. - Weil No. 18.Collected Works, Doc. 45. Weil 19. Boni 19.
Über die vom Relativitätsprincip geforderte Trägheit der Energie. - [THE FIRST EXPLICIT STATEMENT OF THE ENERGY-MASS EQUATION]
Leibzig, Johann Ambrosius Barth, 1907. 8vo. In contemporary full cloth with gilt lettering to spine. In ""Annalen der Physik"", Vierte Folge, Band 23. Entire volume offered. Ex-libris pasted on to top right corner of pasted down front free end-paper. Light rubbing to extremities, a very fine and clean copy (not an ex-library copy). Pp.371-384. [Entire volume: VIII, 1000 pp. + 4 plates].
![Über die vom Relativitätsprincip geforderte Trägheit der Energie. - [THE FIRST EXPLICIT STATEMENT OF THE ENERGY-MASS EQUATION]. "EINSTEIN, ALBERT.](https://static.livre-rare-book.com/pictures/LLX/50595_1_thumb.jpg)
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First edition of the first explicit statement of Einstein's landmark energy-mass equation E=mc2.Nearly all descriptions of Einstein's scientific work state that the mass-energy equivalence E=mc2 was first formulated in Einstein's 1907 review paper 'Über das Relativitätsprinzip und die aus demselben gezogenen.' published in 'Jahrbuch der Radioaktivität und Elektronik' (see Weil no. 21 and Dictionary of Scientific Biography, vol. 4 pp.323 for examples). However, in his paper 'Über die von Relativitätsprincip geforderte Trägheit der Energie' [the offered paper] which predates the former mentioned by six months, Einstein gave a clear statement of the mass-energy equivalence E=mc2. See Lanczos: The Einstein Decade, pp.149-150 and 153 as well as Volume 2 of 'The Collected Papers of Albert Einstein' pp. 428.Einstein's first paper regarding the relation E=mc2 is his fourth 1905 paper, 'Ist die Trägheit eines Körpers von seinem Energieinhalt abhängig?'. In this short paper Einstein showed that a body releasing the energy E in the form of radiation will have its mass decreased by E/c2, and concluded that the mass of a body is a measure of its energy content, e.g., that all energy has mass. The next time Einstein returns to the subject is in his 1906 paper 'Das Prinzip von der Erhaltung der Schwerpunkts Bewegung und die Trägheit der Energie.'. Here Einstein concluded that one must either ascribe the inertial mass E/c2 to any form of energy E or else give up the fundamental law mechanics regarding conservation of the motion of the center of gravity. Then finally in the 1907 paper 'Über die von Relativitätsprincip geforderte Trägheit der Energie.' [the offered paper] Einstein makes the decisive step of assuming that all mass has energy. On page 382 Einstein considers the total energy of a moving mass point as the sum of its kinetic energy and its rest energy. In classical mechanics it is most convenient to set the second term to zero but in relativistic mechanics one obtains the simplest expression by setting the rest energy equal to mc2. Einstein then continues to show that this stipulation cannot lead to a contradiction in any relativistic argument. In a footnote on page 382 Einstein states for the first time the equation E=mc2 and mentions that this equation is the expression of the principle of the equivalence of mass and energy - see Volume 2 of 'The Collected Papers of Albert Einstein' pp. 428.The volume contains another paper by Einstein ""Bemerkungen zu der Notiz von Hrn. Paul Ehrenfest: ""Die Translation deformierbarer Elektronen und der Flächensatz"""", pp.206-208. - Weil No. 18.Collected Works, Doc. 45. Weil 19. Boni 19.
"EINSTEIN, ALBERT. - THE FIRST EXPLICIT STATEMENT OF THE ENERGY-MASS EQUATION !!
Reference : 53408
(1907)
Über die vom Relativitätsprincip geforderte Trägheit der Energie. (On the Inertia of Energy Required by the Relativity Principle).
Leibzig, Johann Ambrosius Barth, 1907. 8vo. Contemp. hcalf. Spine gilt and with gilt lettering. Slightly rubbed and light wear to spineends. In ""Annalen der Physik"", Vierte Folge, Band 23. VIII,1000 pp. a. 4 plates. (The entire volume offered). Einstein's paper: pp.371-384. Stamps on titlepage (Allgemeine Electricitäts-Gesellschaft a. AEG Forschungsinstitut). Internally clean.
First edition of the first explicit statement of Einstein's energy-mass equation E=mc2.Nearly all descriptions of Einstein's scientific work state that the mass-energy equivalence E=mc2 was first formulated in Einstein's 1907 review paper 'Über das Relativitätsprinzip und die aus demselben gezogenen.' published in 'Jahrbuch der Radioaktivität und Elektronik' (see Weil no. 21 and Dictionary of Scientific Biography, vol. 4 pp.323 for examples). However, in his paper 'Über die von Relativitätsprincip geforderte Trägheit der Energie' [the offered paper] which predates the former mentioned by six months, Einstein gave a clear statement of the mass-energy equivalence E=mc2. See Lanczos: The Einstein Decade, pp.149-150 and 153 as well as Volume 2 of 'The Collected Papers of Albert Einstein' pp. 428.Einstein's first paper regarding the relation E=mc2 is his fourth 1905 paper, 'Ist die Trägheit eines Körpers von seinem Energieinhalt abhängig?'. In this short paper Einstein showed that a body releasing the energy E in the form of radiation will have its mass decreased by E/c2, and concluded that the mass of a body is a measure of its energy content, e.g., that all energy has mass. The next time Einstein returns to the subject is in his 1906 paper 'Das Prinzip von der Erhaltung der Schwerpunkts Bewegung und die Trägheit der Energie.'. Here Einstein concluded that one must either ascribe the inertial mass E/c2 to any form of energy E or else give up the fundamental law mechanics regarding conservation of the motion of the center of gravity. Then finally in the 1907 paper 'Über die von Relativitätsprincip geforderte Trägheit der Energie.' [the offered paper] Einstein makes the decisive step of assuming that all mass has energy. On page 382 Einstein considers the total energy of a moving mass point as the sum of its kinetic energy and its rest energy. In classical mechanics it is most convenient to set the second term to zero but in relativistic mechanics one obtains the simplest expression by setting the rest energy equal to mc2. Einstein then continues to show that this stipulation cannot lead to a contradiction in any relativistic argument. In a footnote on page 382 Einstein states for the first time the equation E=mc2 and mentions that this equation is the expression of the principle of the equivalence of mass and energy - see Volume 2 of 'The Collected Papers of Albert Einstein' pp. 428.The volume contains another paper by Einstein ""Bemerkungen zu der Notiz von Hrn. Paul Ehrenfest: ""Die Translation deformierbarer Elektronen und der Flächensatz"""", pp.206-208. - Weil No. 18. Further with 2 importent papers by Max v. Laue.Collected Works, Doc. 45. Weil 19. Boni 19.
Hoffmann (Banesh) - Dukas (Helen) - Einstein (Albert), sur - Claude Manly, traduction
Reference : 86839
(1975)
Albert Einstein - Créateur et rebelle avec la collaboration de Helen Dukas, traduit de l'américain par Claude Manly (Relativité et Quanta)
Editions du Seuil Malicorne sur Sarthe, 72, Pays de la Loire, France 1975 Book condition, Etat : Bon broché, sous couverture imprimée éditeur, illustrée d'une photographie d'Albert Einstein à la fin de sa vie, pleine page en couleurs grand In-8 1 vol. - 304 pages
très nombreuses illustrations dans le texte en noir et blanc, certaines pleine page, photographies et figures, 2 planches hors-texte en fin d'ouvrage (complet) 1ere traduction en français, 1975 Contents, Chapitres : Préface - L'homme et l'enfant - L'enfant et le jeune homme - Prélude - Une nouvelle lumière point - L'agitation atomique - Des temps meilleurs - De Berne à Berlin - Des Principia à Principe - De Principe à Princeton - La Bataille et la bombe - A l'échelle de l'Univers - Tous les hommes sont mortels - Index et table des illustrations - Banesh Hoffmann (6 septembre 1906 à Richmond, Grande-Bretagne 5 août 1986) est un physicien théoricien anglais. Il semble avoir été le premier physicien à mentionner au grand public la possibilité de 11 dimensions dans l'univers, et cela dès 1967. - Doctorat en 1932 à l'université de Princeton sous la direction d'Oswald Veblen. Collaborateur d'Einstein à Princeton en 1935-1937. Publication conjointe d'un article sur le problème du mouvement en relativité générale. Nommé professeur de mathématiques au Queen's College de l'université de la ville de New York en 1952, où il restera jusqu'à la fin des années 1970, bien qu'il soit officiellement retraité dans les années 1960. - Helen Dukas (17 octobre 1896 10 février 1982) est la secrétaire et biographe d'Albert Einstein. Elle a coécrit Albert Einstein: Creator and Rebel et codirigé Albert Einstein: The Human Side, avec Banesh Hoffmann. - Son vrai prénom est Helene. Elle naît le 17 octobre 1896, d'un marchand juif allemand nommé Leopold Dukas et de Hannchen (née Liebmann). Née, élevée et éduquée à Freiburg-im-Breisgau, elle avait six frères et surs et un fils du nom de David. Hannchen Dukas était originaire de la ville de Hechingen, tout comme Elsa Einstein, la seconde épouse d'Albert Einstein. C'est par ce biais que Helen Dukas devient la secrétaire de celui-ci en 1928. Après la mort d'Elsa Einstein, en 1936, Helen Dukas s'occupera des tâches ménagères de la famille Einstein, qui vit à Princeton, dans le New Jersey, où elle restera jusqu'à sa mort, le 10 février 1982. Elle y avait suivi le physicien en 1933. Helen Dukas est l'une des deux personnes choisies par Einstein, selon son testament, pour détenir les droits à l'ensemble de ses manuscrits, droits d'auteur et droits de publication. L'autre fidéicommissaire était l'économiste Otto Nathan. Ils ont travaillé sur la compilation de documents nommée The Collected Papers of Albert Einstein, à l'aide de sources déposées à l'Université hébraïque de Jérusalem, dont elle était spécialiste. Fred Jerome a écrit un livre qui avance la thèse selon laquelle Albert Einstein et Helen Dukas ont été surveillés par le Federal Bureau of Investigation, pendant la direction de J. Edgar Hoover. (source : Wikipedia) couverture à peine jaunie avec d'infimes traces de pliures, notamment au dos, très légère tache sombre au bas du plat inférieur de la couverture, des deux côtés, l'intérieur est sinon frais et propre, quelques rousseurs sur la tranche centrale n'affectant pas l'intérieur, cela reste un bon exemplaire de cette bibliographie très documentée sur Albert Einstein par l'un de ses collègues à Princeton en 1935-1937, Banesh Hoffmann, 1906-1986, dans sa 1ere édition française de 1975 - NB : Il ne s'agit pas de l'édition en poche mais d'un volume en grand format de l'édition de 1975
Über die Krümmung des Raumes + Über die Möglichkeit einer Welt mit konstanter negativer Krümmung des Raumes [Friedman] (+) Bemerkung zu der Arbeit von A. Friedmann ""Über die Krümmung des Raumes"" (+) Notiz zu der Arbeit von A. Friedmann ""Über die Krümm... - [THE CURVATURE OF SPACE]
Berlin, Julius Springer, 1922-24. 8vo. 4 contemporary half cloth binding: two in uniform half green cloth and two en uniform grey/blue half cloth. In ""Zeitschrift für Physik"", Bd. 10, 11, 16 & 21. Entire volumes offered. All volumes with stamp to title page and front free end paper, otherwise a fine and clean set. [Friedmann:] Bd. 10: Pp. 377-386" Bd. 21: P.p. 326-332. [Einstein:] Bd. 11:P. 326" Bd. 16: P. 228.
![Über die Krümmung des Raumes + Über die Möglichkeit einer Welt mit konstanter negativer Krümmung des Raumes [Friedman] (+) Bemerkung zu der Arbeit von ...](https://static.livre-rare-book.com/pictures/LLX/49429_1_thumb.jpg)
First printing of these four landmark paper in which Friedman ""introduced into cosmology two concepts of revolutionary importance, the age og the world and the creation of the world"" (Kragh, Cosmology and Controversy). ""In his paper of 1922, Friedmann offered a complete analysis of the solutions of Einstein's cosmological field equations that went beyond the earlier solutions of Einstein and de Sitter as it also included nonstatic solutions. Friedmann did so clearly and explicitly: ""The purpose of this note,"" he wrote, ""is firstly to show that the cylindrical [Einstein]and spherical [de Sitter] worlds are special cases of more general assumptions, and secondly to demonstrate the possibility of a world in which the curvature of space is independent of the three spatial coordinates but does on time"".(Ibid.).In 'Über die Krümmung des Raumes' Friedman derived the non-stationary solutions to Einstein's field equations. Einstein quickly responded in a short comment ('Bemerkung'), in which he expressed his suspicion of such a model of the Universe and apparently pointed out an error in Friedman's calculations. However, Friedman now wrote a letter to Einstein, in which he enclosed his full calculations. Shortly after this, Einstein submitted a short notice (Notiz), in which he admitted that he himself had performed a calculation error and that Friedman's solutions, which shed new light on the matter, were valid. Friedman's expanding universe model was corroborated by Edwin Hubble's red-shift observations in 1929. In 'Über die Möglichkeit einer Welt mit konstanter negativer Krümmung des Raumes' Friedman derived the Friedman-equations and demonstrated that he had command of all three Friedman-models describing positive, zero and negative curvature respectively, nearly a decade before the independent discoveries of the same models by Lemaître, Robertson, and Walker. ""Friedmann made a valuable contribution to Einstein's general theory of relativity. As always, his interest was not limited simply to familiarizing himself with this new field of science but led to his own remarkable investigations. Friedmann's work on the theory of relativity dealt with one of its most difficult questions, the cosmological problem. In his paper ""Über die Krümmung des Raumes"" (1922), he outlined the fundamental ideas of his cosmology: the supposition concerning the homogeneity of the distribution of matter in space and the consequent homogence of ""world"" time for which, at any moment in time, the metrics of space will be identical at all points and in all directions. This theory is especially important because it leads to a sufficiently correct explanation of the fundamental phenomenon known as the ""red shift."" This solution of the Einstein field equations, obtained from the above propositions, is the model for any homogeneous and isotropic cosmological theory. It is interesting to note that Einstein thought that the cosmological solution to the equations of a field had to be static and had to lead to a closed model of the universe. Friedmann discarded both conditions and arrived at an independent solution. Einstein welcomed Friedmann's results because they showed the dispensability of the ad hoc cosmological term Einstein had been forced to introduce into the basic field equation of general relativity"". (DSB). Weil 122 & 130.
APPENDIX FOR THE SECOND EDITION [of The Meaning of Relativity] + APPENDIX II. GENERALIZED THEORY OF GRAVITATION. - [ORIGINAL PROOF-COPY]
[1950]. 8vo. Original proof-copy (of the latest stage, presumably final proof, in the same format as the printed version and with no corrections), printed on rectos and versos. Stapled twice in left margin. A few marginal creases. A (proof-) number to upper left corner in red ink (297). Pp. 109-148 + tipped-in errata slip at p. 147.
Very rare original proof-copy of the two highly important appendices for Einstein's ""The Meaning of Relativity"", third edition, 1950, the second appendix being one of the most important pieces Einstein ever wrote, namely the appendix ""in which he described his most recent work on unification"" (Pais), and the work which was hailed by The New York Times under the heading ""New Einstein theory gives a master key to the universe"". The first appendix, which appeared for the second edition of the work, remained unchanged throughout the history of ""the Meaning of Relativity"" and was written because ""Since the first edition of this little book some advances have been made in the theory of relativity. [...] The first step forward is the conclusive demonstration of the existence of the red shift of the spectral lines by the (negative) gravitational potential of the place of origin"" [...] A second step forward, which will be mentioned briefly, concerns the law of motion of a gravitating body."" [...] A third step forward, concerning the so-called ""cosmologic problem,"" wiil be considered here in detail..."" (pp. 109-10). The present 40 pages constitute the final proof-copy of the entire appendices I and II to the Generalized Theory of Gravitation, exactly as they appeared in the third edition (Princeton in 1950). Einstein's ""The Meaning of Relativity"" was originally published in 1922, on the basis of his ""Vier Vorlesungen ueber Relativitetstheorie"" given at Princeton in 1921. A second edition, with an appendix (appendix I) appeared in 1945 (several issues and editions of this appeared also), and in 1949 the third edition, with the seminal Appendix II printed for the first time, appears (also appeared in 1950, in Princeton). In 1950 a revised edition of the third edition appears, having Appendix II slightly revised, and in 1953 the heavily revised fourth edition appears. THIS IS THE PROOF-COPY OF APPENDICES I AND II FOR THE ""THIRD EDITION, INCLUDING THE GENERALIZED THEORY OF GRAVITATION"" (PRINCETON, 1950). The main focus of the work throughout all these editions of the work since 1949 is Appendix II, which deals with Einstein's main interest, the generalization of the Gravitation Theory, which was to unite the general theory of relativity with electromagnetism, recovering an approximation for quantum theory, and presenting us with a theory to explain the universe as a unified entity, the ultimate goal for the greatest physicist that ever lived. ""This was Einstein's ultimate response to the mechanical-electromagnetic crisis in physical theory he had first talked about in the opening of his 1905 light quantum-paper."" (Nandor, in D.S.B., p. 330). It was indeed Einstein's aim to provide an explanation of the universe through his unified field theory, although he was well aware that his sort of field theory might not exist. However, even the establishing of the non-existence of it could bring us closer to an explanation than we had ever been before. There is no topic of greater importance to Einstein than his theory of unification. ""In 1949 Einstein wrote a new appendix for the third edition of his ""The Meaning of Relativity"" in which he described his most recent work on unification. It was none of his doing that a page of his manuscript appeared on the front page of ""The New York Times"" under the heading ""New Einstein theory gives a master key to the universe"". He refused to see reporters and asked Helen Dukas to relay this message to them: ""Come back and see me in twenty years""."" (Pais, p. 350).
Einstein Lived Here
Clarendon Press - Oxford University Press Malicorne sur Sarthe, 72, Pays de la Loire, France 1994 Book condition, Etat : Bon hardcover, editor's full black clothes, no dust-jacket grand In-8 1 vol. - 398 pages
few text-figures in black and white 1st edition Contents, Chapitres : To the Reader, References, Contents, List of illustrations, xvi, Text, 282 pages - In the shadow of Albert Einstein - Reflections on Bohr and Einstein - De Broglie, Einstein and the birth of the matter wave concept - Einstein, Newton and success - A mini-briefing on relativity, for the layman - How Einstein got the Nobel Prize - Helen Dukas, in memoriam - Samples from Die komische Mappe - The Indian connection : Tagore and Gandhi - Einstein on religion and philosophy - Einstein and the press - Onomasticon - Subject index no dust-jacket, else fine copy, no markings
Eine Theorie der Grundlagen der Thermodynamik"
Leipzig, Johann Ambrosius Barth, 1903. Contemp. hcloth. Handwritten paperlabel on spine. In: ""Annalen der Physik. Vierte Folge. Band 11. Herausgegeben von Paul Drude."". VIII,1144pp. and 6 plates. (Entire volume offered). The Einstein paper: pp. 170-187. Faint signs of dampstains in outer margins on a few leaves.
First edition of Einsteins fourth paper. In his paper from 1902, Einstein ""says in his introduction that nobody has yet succeeded in deriving the conditions of thermal equilibrium and of the second law of thermodynamics from probability considerations, although Maxwell and Boltzmann came near to it. Willard Gibbs is not mentioned. In fact, Einstein's paper was written in ignorance of Gibbs paper published 1901. In the present paper, Einstein builds the theory on another basis not used by Gibbs, namely on the consideration of a single system in course of time (later called ""Zeit-Gesamtheit"", time assembly), and proves that this is equivalent to a certain virtual assembly of many systems, Gibb's micro-canonical assembly...Einstein at once proceeded to apply his theorems to a case of utmost importance, namely to systems of a size suited for demonstrating the reality of molecules and the correctness of the kinetic theory of matter.""(Walter Alicke). First edition of Einsteins fourth paper. In his paper from 1902, Einstein ""says in his introduction that nobody has yet succeeded in deriving the conditions of thermal equilibrium and of the second law of thermodynamics from probability considerations, although Maxwell and Boltzmann came near to it. Willard Gibbs is not mentioned. In fact, Einstein's paper was written in ignorance of Gibbs paper published 1901. In the present paper, Einstein builds the theory on another basis not used by Gibbs, namely on the consideration of a single system in course of time (later called ""Zeit-Gesamtheit"", time assembly), and proves that this is equivalent to a certain virtual assembly of many systems, Gibb's micro-canonical assembly...Einstein at once proceeded to apply his theorems to a case of utmost importance, namely to systems of a size suited for demonstrating the reality of molecules and the correctness of the kinetic theory of matter.""(Walter Alicke). - Weil No. 4 - Boni No 4.
The Advancement of Science, and its Burdens , The Jefferson Lecture and Other Essays (Albert Einstein)
Cambridge University Press Malicorne sur Sarthe, 72, Pays de la Loire, France 1986 Book condition, Etat : Bon paperback, editor's red wrappers grand In-8 1 vol. - 362 pages
1st edition, 1986 (paperback) "Contents, Chapitres : Contents, Preface, xi, Text, Notes, Acknowledgments, Index, 351 pages - 1. Einstein and the culture of science : Thematic presuppositions and the direction of scientific advance - Einstein's model for constructing a scientific theory - Einstein's scientific program : The formative years - Einstein's search for the Weltbild - Einstein and the shaping of your imagination - Physics in America, and Einstein's decision to immigrate - 2. On the history of twentieth-century physical science : "" Success sanctifies the means "" : Heisenberg, Oppenheimer, and the transition to modern physics - Do scientists need a philosophy ? - Science, technology, and the fourth discontinuity - 3. Science, education, and the public interest : The two maps - From the endless frontier to the ideology of limits - Metaphors in science and education - "" A natin at risk "" revised - "" The advancement of science, and its burdens "" : the Jefferson Lecture" near fine copy, the editor's wrappers is near fine, spine is lightly discoloured, inside is fine, no markings
Sugimoto (Kenji) - Einstein (Albert), sur - Bardos (Jean-Pierre), traduction
Reference : 100327
(1990)
Albert Einstein - Biographie illustrée - 500 photos et documents commentés , Traduction de Jean-Pierre Bardos
Belin Malicorne sur Sarthe, 72, Pays de la Loire, France 1990 Book condition, Etat : Bon relié, cartonnage éditeur illustré bleu, illustré d'un portrait d'Albert Einstein pleine page Petit In-4 carré 1 vol. - 223 pages
500 photographies et documents en noir et blanc 1ere traduction en français, 1990 Contents, Chapitres : Kenji Sugimoto : Préface - Biographie illustrée de tres nombreuses photographies et fac-similés de documents divers et variés - Avec quelques lettres en Annexe, une chronologie détaillée de 25 pages, la liste des publications scientifiques d'Einstein et autres, les biographies et un index - Kenji Sugimoto, né en 1947 et mort le 19 octobre 2006 à Osaka, fut un pédagogue des sciences naturelles japonais. Sugimoto était professeur à l'Université Kinki. De 1985 à 1987 il travailla à l'Université Louis-et-Maximilien de Munich. Son uvre la plus connue est Albert Einstein: A Photographic Biography. cartonnage à peine jauni, sinon bon exemplaire, intérieur frais et propre, quelques rousseurs sur les premières et dernières pages, de cet ouvrage de Kenji Sugimoto sur Albert Einstein. A notre connaissance, c'est l'iconographie la plus détaillée qui existe sur Einstein, une référence.
Entwurf einer Landschaft. Illustré de lithographies par C.-L. Roux.
Paris, Éditions de la Galerie Simon, 1930. Grand in-4 broché, couverture imprimée. Chemise en demi-box noir, étui (Honegger).
Illustré de 5 lithographies de Gaston-Louis Roux, dont une en frontispice. Édition originale. Tirage à 112 exemplaires, un des X exemplaires de chapelle sur Hollande van Gelder, signé par l’auteur et l’illustrateur. Enrichi d’un envoi autographe de l’auteur à Erna Reber, la dédicataire du livre, ainsi que des cinq dessins originaux ayant servis aux illustrations de ce livre, tous signés. Amis de la première heure, Carl Einstein rencontre Kahnweiler dès son arrivée à Paris vers 1904. Amateur de peinture cubiste, il écrit également des romans et de la poésie, que Kahnweiler apprécie particulièrement. Intellectuel engagé, Einstein devient un fin critique et un grand théoricien de l'art primitif. En 1915 son livre Negerplastik fait date, tout comme la somme sur l’art de son temps, Die Kunst des 20e Jahrhunderts. Pour rédiger ses travaux, il entre en contact avec de nombreux artistes et collectionneurs à travers l’Europe. C’est ainsi qu’il rencontre Gottlieb Friedrich Reber, immense collectionneur des peintres cubistes de la première heure. D’origine allemande, Reber s’installe en Suisse après la Première Guerre mondiale. Dans son histoire de l’art, Einstein illustrera le chapitre sur le cubisme avec les œuvres de la collection Reber. Et ils collaboreront tous les deux à la revue surréaliste Documents. C’est dire si la présence d’un envoi autographe d’Einstein à Erna Reber, est précieuse: l’ouvrage lui étant déjà dédié, il lui est personnellement dédicacé ! Entwurf einer Landschaft (Esquisse d’un paysage) est le premier livre publié par Einstein en France. Recueil de poèmes au ton hermétique, il ne connait pas un grand succès, et pour cause, ni l’éditeur ni son auteur n’ont cru utile d’en donner une traduction en français. Gaston-Louis Roux a intégré la Galerie Simon en 1927, à l'âge de vingt-trois ans, mais n’avait pas encore réalisé d’illustrations pour Kahnweiler. Il avait déjà une expérience en ce domaine, puisqu’il avait travaillé pour Pascal Pia, spécialisé dans la littérature érotique clandestine. Ainsi Roux et Einstein se connaissent, ils collaborent à la revue Documents, et Einstein lui consacre même une partie d’un chapitre dans son histoire de l’art. Toutefois, l’illustration qui naîtra de cette collaboration est des plus déroutantes. Entwurf - esquisse - ainsi semblent les dessins réalisés par Roux. On peut aisément penser que ce rare exemplaire de chapelle, enrichi des dessins originaux, a été offert par le poète et le peintre à l’épouse du collectionneur lorsque le couple visitait la Galerie Simon. Et il est amusant de noter que sur la page de titre se trouvent non pas deux, mais trois coquilles ! Skira 320; Hugues 26; Pompidou p. 187; Chapon p. 285; Galland p. 952.
Zur Quantentheorie der Strahlung. - [FOUNDING LASER PHYSICS.]
Leipzig, S. Hirzel, 1917. Royal8vo. Bound in contemporary half calf with gilt lettering to spine and 5 raised bands with ornaments in gilt. In ""Physikalische Zeitschrift"", Bd. 18, 1917. Spine and hinges with wear, otherwise a fine and clean copy. Pp. 121-128. [Entire volume: XI, (1), 604 pp. + 14 plates.
The paper was first published in 1916 in Mitteilungen der Physikalischen Gesellschaft in Zürich, but here for the first time in Physikalische Zeitschrift. All subsequent research on absorption and emission of radiation and the entire discovery of the maser, later the laser, was based on the research presented in the present paper. The paper is also notable for introducing the concept (but not the name) of the photon"" Einstein argues that in the interaction of matter and radiation there must be, in addition to the processes of absorption and spontaneous emission, a third process of stimulated emission. If stimulated emission exists then he can derive the Planck distribution for blackbody radiation and without it the same argument implies the invalid Wien-distribution theory.""In this paper he derived Planck's original quantum law from a different starting point, he suggested that as well as spontaneous emission and absorption, there could also take place the process of stimulated emission. In 1917 this seemed mainly of theoretical interest"" forty years later it was utilized to provide the maser and laser of modern technology. In 1916, ""Einstein came back once more to blackbody radiation and made further progress. In November 1916 he wrote to Besso: 'A splendid light has fallen on me about the absorption and emission of radiation'. His reasoning is divided into three papers, two of which appeared in 1916 and the third one early in 1917 [the two papers above - note that these are the two papers of Einstein on radiation theory cited by Weil as ""principal works"""" a third paper from 1916 is not.] In these papers, Einstein proposed a statistical theory of the interaction between atoms and photons, gave a new demonstration of Planck's radiation theory and introduced the concept of 'stimulated emission', providing the basis for the discovery of masers and lasers "" (Bertolotti, The History of the Laser).""When Einstein returned to the radiation problem in 1916, the quantum theory had undergone a major change. Niels Bohr's papers had opened a new and fertile domain for the application of quantum concepts-the explanation of atomic structure and atomic spectra. In addition Bohr's work and its generalizations by Arnold Sommerfeld and others constituted a fresh approach to the foundations of the quantum theory of matter. Einstein's new work showed the influence of these ideas . He had found still another derivation of Planck's black-body radiation law, an ""astonishingly simple and general"" one which, he thought, mightproperly be called ""the derivation"" 12 of this important law. It was based on statistical assumptions about the processes of absorption and emission of radiation and on Bohr's basic quantum hypothesis that atomic systems have a discrete set of possible stationary states. The proof turned on the requirement that absorption and emission of radiation, both spontaneous and stimulated, suffice to keep a gas of atoms in thermodynamic equilibrium. (This paper introduced the concept of stimulated emission into the quantum theory and is therefore often described as the basis of laser physics.) Einstein himself considered the most important contribution of this work to be not the new derivation of the distribution law but rather the arguments he presented for the directional character of energy quanta. (DSB) Weil No 91 (with an asterix denoting major paper).
Einstein, History and Other Passions - The Rebellion against Science at the End of the Twentieth Century
Addison - Wesley Publishing Company Malicorne sur Sarthe, 72, Pays de la Loire, France 1996 Book condition, Etat : Bon paperback, editor's blue and black wrappers, illustrated by a portray of Einstein grand In-8 1 vol. - 242 pages
1st edition, 1996 "Contents, Chapitres : Contents, Preface, xii, Text, Notes, Ackowledgments, Index, 240 pages - 1. Science in history : What place for science at the "" end of the Modern Era "" ? - The public image of science - "" Doing one's damnedest "" : The evolution of trust in scientific findings - Imagination in science - Understanding the history of science - 2. Learning from Einstein : Enstein's influence on the culture of our time - Einstein and the goal of science - Of physics, love, and other passions : The letters of Albert and Mileva - "" What, precisely, is thinking ? "" ... Einstein's answer " near fine copy, no markings except a translation agency stamp and a letter enclosed, text remains clean and unmarked, a rather nice copy
Guye (Charles-Eugène), Ratnowsky (S.) et Lavanchy (Ch.) sur Albert Einstein et H.-A. Lorentz
Reference : 100484
(1921)
Vérifications expérimentales de de la formule de Lorentz-Einstein faite au Laboratoire de Physique de l'Université de Genève , dans les Mémoires de la Société de Physique et d'Histoire Naturelle de Genève, volume 39, fascicule 6 (Relativité restreinte)
Imprimerie Albert Kundig à Genève , Mémoires de la Société de Physique et d'Histoire Naturelle de Genève Malicorne sur Sarthe, 72, Pays de la Loire, France 1921 Book condition, Etat : Bon broché, sous couverture imprimée éditeur crème In-4 1 vol. - 82 pages
3 planches hors-texte (planches 3, 4 et 5, complet) et 11 figures dans le texte 1ere édition, édition originale, 1921 "Contents, Chapitres : Paginé 273 à 354 (82 pages) - Avant-propos - Dynamique des grandes vitesses - Aperçu historique - 1. Expérience de MM. Guye et Ratnovsky - Résultats - Conclusions de la 1ere partie - 2. Expériences de MM. Guye et Lavanchy : Méthode - Dispositif expérimental - Mesures préliminaires - Résultats et conclusions de la 2eme partie - Tableaux complets des résultats (Résultat - Théorie de Lorentz-Einstein et Théorie d'Abraham comparés) - 3 Planches commentées en regard - Appendice : Formule et tables - Charles-Eugène Guye, né le 15 octobre 1866 à Saint-Christophe, commune de Champvent dans le canton de Vaud, Suisse et mort le 15 juillet 1942 à Genève, est un physicien suisse. - Guye étudie la physique à l'Université de Genève où il reçoit son doctorat en 1889. De 1890 à 1892, il est privatdozent à Genève, et de 1893 à 1900, il est privatdozent au Polytechnicum de Zürich (aujourd'hui l'École polytechnique fédérale de Zurich). De 1900 à 1930, il est professeur ordinaire et directeur de l'institut de physique de l'Université de Genève. Il a comme doctorante Catherine Chamié qui soutient en 1913 une thèse intitulée Influence de la rapidité des variations du champ magnétisant sur l'hystérésis alternative et qui ira ensuite travailler à Paris avec Marie Curie. Il a principalement étudié les courants électriques, le magnétisme et les décharges électriques dans les gaz. Il a réalisé des expériences qui démontrent la dépendance de la masse de l'électron à sa vitesse dans le but de valider les prévisions de Lorentz et Einstein dans le cadre de la relativité restreinte. Il a participé aux 5e et 7e congrès Solvay. Il a écrit plusieurs ouvrages de vulgarisation et plus de 200 articles de physique (source : Wikipedia) - Comme l'indique C.-E. Guye dans l'avant-propos : ""Les travaux qui font l'objet de ce mémoire on été entrepris à la suite des discussions auxquelles avaient donné lieu les expériences bien connues de Kaufmann sur la variation d'inertie des corpuscules beta du radium. Ces expériences avaient démontré la variation d'inertie des corpuscules beta en fonction de la vitesse, mais elles étaient insufisamment précises pour permettre de trancher la question de savoir si cette variation était conforme à la théorie d'Abraham (Electron sphérique, indéformable) ou s'il fallait tenir compte dans cette variation de la contraction de Lorentz-Einstein, conformément au principe de relativité (...). Deux ans plus tard, M. Bucherer entreprit de nouvelles déterminations qui sans permettre de trancher définitivement la question étaient cependant plus favorable à la théorie de Lorentz-Einstein qu'à celle d'Abraham. L'idée me vient alors de chercher à attaquer le problème par l'étude des rayons cathodiques de grande vitesse. (...). mais la production de ces rayons, que l'on ne peut obtenir que dans des vides très poussés, présente au niveau expérimental de grandes difficultés. (...). Je me suis arrêté à la méthode que j'ai appelée ""Méthode des trajectoires identiques""." Bon exemplaire, couverture propre avec de légères traces de pliures, bas du dos un peu bruni avec un léger manque, également le bas du bord gauche du plat supérieur, dos à peine strié, coin supérieur gauche du volume à peine corné, infime petit manque de papier au coin inférieur droit du plat supérieur, la couverture originale reste en bon état, intérieur sinon très frais et propre, le papier n'est qu'à peine jauni sans aucune gravité, bien complet des 3 planches hors-texte présentant les installations du laboratoire et les résultats de la vérification, cela reste un bon exemplaire malgré ces petits défauts
Einstein (Albert) - Anna Beck and Peter Havas, eds. - Alfred Engel and Engelbert Schucking
Reference : 100209
(1998)
The Collected Papers of Albert Einstein - 7 First Volumes - English Translation by Anna Beck and Peter Havas - Volume 1. The Early Years, 1879-1902 - Volume 2. The Swiss Years : Writings, 1900-1909 - Volume 3. The Swiss Years : Writings, 1909-1911 - Volume 4. The Swiss Years : Writings, 1912-1914 - Volume 5. The Swiss Years : Correspondence, 1902-1914 - Volume 6. The Berlin Years : Writings, 1914-1917 - Volume 7. The Berlin Years : Writings, 1918-1921 - Volume 8. Berlin Years : Correspondence 1914-1918 (3 last volumes Edited by Alfred Engel and Engelbert Schucking) - (Physique, Physics, Relativité, Relativity - Oeuvres complètes)
Princeton University Press , The Collected Papers of Albert Einstein Malicorne sur Sarthe, 72, Pays de la Loire, France 1998 Book condition, Etat : Bon paperback, editor's printed wrappers, volume 1 is black, 7 other volumes are white In-4 8 vol. - 3408 pages
Contents, Chapitres : V.1. (1987), Contents, Publisher's Foreword (March 1987), Preface, Maja Winteler-Einstein, A Biographical Sketch, xxii, Text, 196 pages - V.2. (1989), Contents, Publisher's Foreword (September 1989), Preface, xiv, Text, 399 pages - V.3. (1993), Contents, Publisher's Foreword (August 1993), Preface, xi, Text, 437 pages - V.4. (1996), Contents, Publisher's Foreword (April 1996), Preface, xi, Text, 314 pages - V.5. (1995), Contents, Publisher's Foreword (October 1994), Preface, xxii, Text, 384 pages - V.6. (1997), Contents, Publisher's Foreword (May 1997), Preface, xii, Text, 449 pages - V.7. (2002), Contents, Publisher's Foreword (January 2002), xv, Text, 383 pages - V.8. (1998), Contents, Foreword, Acknowledgments, xxv, Text, 714 pages "8 first volumes of the Collected Papers of Albert Einstein published by Princeton, original paperback first edition, published from 1987 to 1997, homogeneous set but the first volume is black and the 6 following are white, very nice set, wrappers very lightly yellowing, quite nothing, else fine copy, inside is fine, no markings, few foxings on the right side of the volumes but not inside, a very important publications with all the papers from Einstein from 1879 to 1921, the most important period of his carreer with, for instance, the discovery of relativity, 1905 (""On the Electrodynamics of Moving Bodies"", volume 2, page 140) - The complete set should be in 15 volumes (volumes 9 to 15 are missing here) - NB : It may have additional shipping fees, according to the delivery address, the weight of the set is over 6,6 kilos, please contact us, should you need more informations"
Canguilhem (Georges) et Taton (René), eds. - J. Billard - J. Bromberg on Heisenberg - M. W. Burke-Gaffney - P. Forman - P.G. Hamamdjian sur Ampère - A. Hermann - T. Hirosige - D. Ivanenko - F. Herneck on Einstein und Schopenhauer - M. A. Hoskin on Edwin Hubble - B. Kouznetsov sur Galilée et Einstein - O.A. Lezehneva - S. Nisio - V. Parkazdé - E. Rybka - K.F. Schaffner on Lorentz - B.I. Spassky - B. J. Spencer on Bohr and Zeeman - R.H. Stuewer on Arthur Holly Compton - W.H. Venable on Samuel P. Langley - David Weiner - E. Yagi on Nagaoka - J.M. Zemplen on Eotvos
Reference : 101137
(1971)
Actes du XIIe Congrès International d'Histoire des Sciences - Tome V (5). Histoire de la physique, y compris l'astronomie , Paris, Conservatoire des Arts et Métiers, du 25 au 31 août 1968 (Etudes de la propagation des ondes lumineuses dans les milieux à la fois anisotropes et actifs - Heisenberg's paper on nuclear structure - Spectroscopic observations on Comet 1882, II - On the discovery of the diffraction of X-Rays by cristals - Genèse des idées d'Ampère en électromagnétisme - Zur Frühgeschichte der Quantentheorie - The decline of the Ether - Main periods of Soviet physics - Einstein und Schopenhauer - Edwin Hubble and the existence of external galaxies - Galilée et Einstein - Soviet scientific research in the history of physics - Chemical considerations and Bohr atom model - Développement de la physique en Géorgie au Xxe - Plan of a general history of astronomy - Theory and experiment in Lorentz's contraction hypothesis - Concept de modèle en physique - Bohr theory and Zeeman effect - Arthur Holly Compton and the reflexion of X-Rays - Samuel P. Langley's Bolometer and far Infra-Red - History of the 20th cy. Physics - Nagaoka's Saturnian Atomic model - Eotvos experiment and modern physics)
Librairie Scientifique et Technique Albert Blanchard , Congrès International d'Histoire des Sciences Malicorne sur Sarthe, 72, Pays de la Loire, France 1971 Book condition, Etat : Bon broché, sous couverture imprimée éditeur verte grand In-8 1 vol. - 127 pages
1ere édition, 1971 Contents, Chapitres : J. Billard : Etudes de la propagation des ondes lumineuses dans les milieux à la fois anisotropes et actifs - J. Bromberg : Heisenberg's paper on nuclear structure - M. W. Burke-Gaffney : Spectroscopic observations on Comet 1882, II - P. Forman : On the discovery of the diffraction of X-Rays by cristals - P.G. Hamamdjian : Genèse des idées d'Ampère en électromagnétisme - A. Hermann : Zur Frühgeschichte der Quantentheorie - T. Hirosige : The decline of the Ether - D. Ivanenko : Main periods of Soviet physics - F. Herneck : Einstein und Schopenhauer - M. A. Hoskin : Edwin Hubble and the existence of external galaxies - B. Kouznetsov : Galilée et Einstein - O.A. Lezehneva : Soviet scientific research in the history of physics - S. Nisio : Chemical considerations and Bohr atom model - V. Parkazdé : Développement de la physique en Géorgie au Xxe - E. Rybka : Plan of a general history of astronomy - K.F. Schaffner : Theory and experiment in Lorentz's contraction hypothesis - B.I. Spassky : Concept de modèle en physique - B. J. Spencer : Bohr theory and Zeeman effect - R.H. Stuewer : Arthur Holly Compton and the reflexion of X-Rays - W.H. Venable : Samuel P. Langley's Bolometer and far Infra-Red - C. Weiner : History of the 20th cy. Physics - E. Yagi : Nagaoka's Saturnian Atomic model - J.M. Zemplen : Eotvos experiment and modern physics bords des plats à peine jaunis, sinon bel exemplaire, intérieur frais et propre, coins à peine cornés, papier très légèrement jauni, cela reste un bon exemplaire - Actes du XIIeme Congrès International d'Histoire des Sciences - Tome 5 seul, complet en lui-même sur l'Histoire de la physique et l'astronomie
Einstein à Paris
Presses Universitaires de Vincennes , Histoires de Science Malicorne sur Sarthe, 72, Pays de la Loire, France 1992 Book condition, Etat : Bon broché, sous couverture imprimée éditeur blanche, illustrée de la une d'un journal français annonçant le passage d'Einstein au Collège de France In-8 1 vol. - 222 pages
quelques illustrations dans le texte en noir 1ere édition, 1992 Contents, Chapitres : Introduction - 1. Einstein à Paris, 1922 : Le séjour - Einstein incompréhensible - La présence du mythe - 2. Les deux physiques : La bataille de la relativité - L'introduction de la relativité dans l'enseignement - Conclusion - Sources : Journaux, journaux parus après la mort d'Henri Poincaré - Livres et articles parus sur la relativité entre 1905 et 1934 en français - Bibliographie indicative - Einstein, repères biographiques - Index couverture à peine jaunie avec d'infimes traces de pliures aux coins des plats, sinon bel exemplaire, intérieur frais et propre
Einstein (Albert) et Infeld (Leopold) - Maurice Solovine (Traduction)
Reference : 87060
(1968)
L'évolution des idées en physique - Des premiers concepts aux théories de la Relativité et des Quanta - Traduit de l'anglais par Maurice Solovine
Payot , Petite Bibliothèque Payot Malicorne sur Sarthe, 72, Pays de la Loire, France 1968 Book condition, Etat : Bon broché, sous couverture imprimée éditeur blanche et rouge, illustrée d'un dessin, portrait d'Einstein et de Copernic In-8 1 vol. - 280 pages
nombreuses figures dans le texte en noir et blanc nouvelle édition en poche, 1968 Contents, Chapitres : Préface des auteurs - La naissance de la conception mécanique - Le déclin de la conception mécanique - Le champ, la relativité - Les Quanta - Leopold Infeld (Cracovie, 20 août 1898 Varsovie, 15 janvier 1968) est un physicien théoricien polonais. - Né à Cracovie où il fait ses études, Leopold Infeld étudia la physique à l'université Jagellonne de Cracovie. Il obtint son doctorat en 1921 sous la direction de Ladislas Natanson. Juif, il quitte la Pologne pour l'Angleterre en 1933 avant de s'installer aux États-Unis en 1936 où il devient collaborateur d'Albert Einstein -avec qui il correspondait depuis 1927- à Princeton. Pour financer la suite de son séjour à Princeton, il écrit en 1938 L'évolution des idées en physique avec Einstein, puis publie conjointement trois articles sur le problème du mouvement en relativité générale (le premier article avec Hoffmann). Nommé professeur à l'université de Toronto en 1938, il revient dans sa terre natale où il est nommé professeur à l'université de Varsovie en 1950. Il y restera jusqu'à sa mort en 1968. Il fut signataire du Manifeste Russell-Einstein en 1955. (source : Wikipedia) - NB : Une histoire de la physique, de la mécanique de Newton jusquaux théories modernes (relativité, quanta), écrite en 1936 par Einstein et lun de ses disciples à Princeton, Léopold Infeld, pour financer le séjour de ce dernier. couverture à peine jaunie, sinon en très bon état, infime trace de pliure au coin supérieur droit du plat supérieur, intérieur frais et propre, papier légèrement jauni, cela reste un bel exemplaire - format de poche
Zur Theorie der Lichterzeugung und Lichtsabsorption (withbound:) Das princip von der Erhaltung der Schwerpunktsbewegung und die Trägheit der Energie" (2 papers).
Leipzig, Johann Ambrosius Barth, 1906. Bound together in one contemp. hcloth. Small tears to spine ends. (=) ""Annalen der Physik. Vierte Folge. Band 20. Herausgegeben von Paul Drude."" , Portrait (Paul Drude), VIII,1048 pp. and 6 plates. Einstein papers: pp. 199-206 and 627-33. Internally fine and clean. The whole volume offered.
Both papers first edition. It was for the papers ""Ueber einen die Erzeugung und Verwandlung des Lichtes betreffenden heuristischen Gesichtspunkt"" of 1905 and ""Zur Theorie der Lichterzeugung...( Theory of light emission and absorption), the offered item), that Einstein was awarded the Nobel Prize in 1921.""The quantum theory has affected virtually every branch of physics. Its earliest and one of its most significant developments was Einstein's application of the theory to what is known as the 'photo-electrical effect'....Einstein explained this effext by suggesting that the classical view that light is emitted in the form of continous waves must be abandoned. The photo-electrical effect could be explained only as an example of quantum action where the waves of light or X-rays are emitted in minute particles or bullets. It is he size of the bullet (the wave-lenght of the radiation) which determines the number of electrons ejected. It was for this, and not for the theory of relativity, that Einstein was awarded the Nobel Prize in 1921. Einstein's two fundamental papers on this subject are ""Ueber einem Erzeugung...."" 1905 and Zur Theorie der Lichterzeugung (the paper offered here)"" (PMM the note to 391). In the second paper (Principle of the conservation of the centre of mass motion and the inertia of energy) he shows that the conservation of mass is a special application of his energy principle (E= Mc2) - Weil: 12 & 13.Among the many papers in this volume we have Max von Laue: Zur Thermodynamik der Inteferenzerscheinungen. pp. 365-378.
Zur Theorie der Lichterzeugung und Lichtsabsorption" (Eingegangen 13. März 1906). (On the Theory of Light Production and Light Absorption).
(Leipzig, Johann Ambrosius Barth, 1906). No wrappers. Extracted from ""Annalen der Physik"" Vierte Folge. Bd. 20. Pp. 199-206. Clean and fine.
First printing of one of the papers for which Einstein was awarded the Nobel Prize in 1921. It was for the papers ""Ueber einen die Erzeugung und Verwandlung des Lichtes betreffenden heuristischen Gesichtspunkt"" of 1905 and ""Zur Theorie der Lichterzeugung...( Theory of light emission and absorption), the offered item, that Einstein received the prize: ""for his services to theoretical physics and especially for his discoveryof the law of the photoelectrical effect"" - his reward was not based on relativity.""The quantum theory has affected virtually every branch of physics. Its earliest and one of its most significant developments was Einstein's application of the theory to what is known as the 'photo-electrical effect'....Einstein explained this effext by suggesting that the classical view that light is emitted in the form of continous waves must be abandoned. The photo-electrical effect could be explained only as an example of quantum action where the waves of light or X-rays are emitted in minute particles or bullets. It is he size of the bullet (the wave-lenght of the radiation) which determines the number of electrons ejected. It was for this, and not for the theory of relativity, that Einstein was awarded the Nobel Prize in 1921. Einstein's two fundamental papers on this subject are ""Ueber einem Erzeugung...."" 1905 and Zur Theorie der Lichterzeugung (the paper offered here)"" (PMM the note to 391).Weil: 12 (with an asterix, denoting a major paper) - Boni:12.
Zur Theorie der Lichterzeugung und Lichtsabsorption (withbound:) Das princip von der Erhaltung der Schwerpunktsbewegung und die Trägheit der Energie" (2 papers).
Leipzig, Johann Ambrosius Barth, 1906. Bound together in one contemp. halfcalf. Spine gilt. Minor scratches to spine. A stamp to titlepage and htitle. ""Annalen der Physik. Vierte Folge. Band 20. Herausgegeben von Paul Drude."" , Portrait (Paul Drude), VIII,1048 pp. and 6 plates. Einstein papers: pp. 199-206 and 627-33. The entire volume offered.
Both papers first edition. It was for the papers ""Ueber einen die Erzeugung und Verwandlung des Lichtes betreffenden heuristischen Gesichtspunkt"" of 1905 and ""Zur Theorie der Lichterzeugung...( Theory of light emission and absorption), the offered item), that Einstein was awarded the Nobel Prize in 1921.""The quantum theory has affected virtually every branch of physics. Its earliest and one of its most significant developments was Einstein's application of the theory to what is known as the 'photo-electrical effect'....Einstein explained this effext by suggesting that the classical view that light is emitted in the form of continous waves must be abandoned. The photo-electrical effect could be explained only as an example of quantum action where the waves of light or X-rays are emitted in minute particles or bullets. It is he size of the bullet (the wave-lenght of the radiation) which determines the number of electrons ejected. It was for this, and not for the theory of relativity, that Einstein was awarded the Nobel Prize in 1921. Einstein's two fundamental papers on this subject are ""Ueber einem Erzeugung...."" 1905 and Zur Theorie der Lichterzeugung (the paper offered here)"" (PMM the note to 391). In the second paper (Principle of the conservation of the centre of mass motion and the inertia of energy) he shows that the conservation of mass is a special application of his energy principle (E= Mc2) - Weil: 12 & 13.Among the many papers in this volume we have Max von Laue: Zur Thermodynamik der Inteferenzerscheinungen. pp. 365-378.
EINSTEIN, ALBERT. - THE PHOTOELECTRIC EQUATION - THE NOBEL PRIZE PAPERS.
Reference : 59121
(1906)
Zur Theorie der Lichterzeugung und Lichtsabsorption (withbound:) Das princip von der Erhaltung der Schwerpunktsbewegung und die Trägheit der Energie" (2 papers).
Leipzig, Johann Ambrosius Barth, 1906. Full cloth. Spine with gilt lettering. In: ""Annalen der Physik. Vierte Folge. Band 20. Herausgegeben von Paul Drude."" , Portrait (Paul Drude), VIII,1048 pp. and 6 plates. Einstein papers: pp. 199-206 and 627-33. Internally fine and clean. The entire volume offered. Broad margins.
Both papers first edition. It was for the papers ""Ueber einen die Erzeugung und Verwandlung des Lichtes betreffenden heuristischen Gesichtspunkt"" of 1905 and ""Zur Theorie der Lichterzeugung...( Theory of light emission and absorption), the offered item), that Einstein was awarded the Nobel Prize in 1921. ""The quantum theory has affected virtually every branch of physics. Its earliest and one of its most significant developments was Einstein's application of the theory to what is known as the 'photo-electrical effect'....Einstein explained this effext by suggesting that the classical view that light is emitted in the form of continous waves must be abandoned. The photo-electrical effect could be explained only as an example of quantum action where the waves of light or X-rays are emitted in minute particles or bullets. It is he size of the bullet (the wave-lenght of the radiation) which determines the number of electrons ejected. It was for this, and not for the theory of relativity, that Einstein was awarded the Nobel Prize in 1921. Einstein's two fundamental papers on this subject are ""Ueber einem Erzeugung...."" 1905 and Zur Theorie der Lichterzeugung (the paper offered here)"" (PMM the note to 391). In the second paper (Principle of the conservation of the centre of mass motion and the inertia of energy) he shows that the conservation of mass is a special application of his energy principle (E= Mc2) - Weil: 12 & 13.Among the many papers in this volume we have Max von Laue: Zur Thermodynamik der Inteferenzerscheinungen. pp. 365-378.
EINSTEIN, sa vie et son temps -- EDITION ORIGINALE
P., A.Michel, 1950, un volume in 8, broché, couverture imprimée, 435pp.
---- EDTION ORIGINALE ---- Jeunesse et formation - Conception du monde physique avant Einstein - Naissance d'une ère nouvelle en physique (vie à Berne, influences philosophiques, les hypothèses fondamentales de la théorie de la relativité, relativité du temps...) - Einstein à Prague, à Berlin - La relativité généralisée - Einstein, figure publique - Voyages à travers l'Europe, l'Amérique et l'Asie - Développement de la physique atomique - Agitation politique en Allemagne - Utilisation politique des théories d'Einstein - Einstein au Etats-Unis**5925/CAV.E6
