Utilizator:Solt/proiect 4.1/Lista lui Einstein 4.3

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Index[notes 1] Anul Titlul în original și traducerea în limba română[notes 2] Revista, volumul, pagina[notes 3] Clasificări și note[notes 4]
Schilpp 124; CP 7, 18 1919 Bemerkungen über periodische Schwankungen der Mondlänge, welche bisher nach der Newtonschen Mechanik nicht erklärbar schienen
Comment about Periodical Fluctuations of Lunar Longitude, Which So Far Appeared to Be Inexplicable in Newtonian Mechanics
Sitzungsberichte der Preussischen Akademie der Wissenschaften, 1919 (pt. 1), 433–436 Teoria relativității generale.
Schilpp 125 1919 Feldgleichungen der allgemeinen Relativitätstheorie vom Standpunkte des kosmologischen Problems und des Problems der Konstitution der Materie
Field Equations of the General Theory of Relativity in Respect to the Cosmological Problem and the Problem of the Constitution of Matter§
Sitzungsberichte der Preussischen Akademie der Wissenschaften, 1919 (pt. 1), 463 (Title only) Teoria relativității generale.[1]
Schilpp 126; CP 7, 26 1919 November 28 My theory Times, London, 13 Teoria relativității generale.[2] Re-published in 1919 as "Time, space and gravitation" in Optician, the British optical journal, volume 58, pages 187–188.
Schilpp 127; CP 7, 24 1919 Leo Arons als Physiker
Leo Arons as Physicist
Sozialistische Monatshefte, 52 (Jahrgang 25, pt. 2), 1055–1056 Istoria fizicii.[3]
Schilpp 132 1920 Bemerkung zur Abhandlung von W. R. Hess: Theorie der Viscosität heterogener Systeme
Comment on the Paper by W. R. Hess: Contribution to the Theory of the Viscosity of Heterogeneous Systems
Kolloidzeitschrift, 27, 137 Intermolecular forces.[4]
Schilpp 133 1920 Inwiefern lässt sich die moderne Gravitationstheorie ohne die Relativität begründen?
To What Extent Can Modern Gravitational Theory Be Established without Relativity?
Naturwissenschaften, 8, 1010–1011 Teoria relativității generale.[5]
Schilpp 134 1920 Trägheitsmoment des Wasserstoffmoleküls
Moment of Inertia of the Hydrogen Molecule§
Sitzungsberichte der Preussischen Akademie der Wissenschaften, 1920, 65 Intermolecular forces.[6] Abstract of never-published paper.
Schilpp 135; CP 7, 39 1920 Schallausbreitung in teilweise dissoziierten Gasen
Propagation of Sound in Partly Dissociated Gases
Sitzungsberichte der Preussischen Akademie der Wissenschaften, 1920, 380–385 Intermolecular forces.
Schilpp 136; CP 7, 45 1920 August 27 Meine Antwort über die antirelativitätstheoretische G.m.b.H.
My Response on the Anti-Relativity Company
Berliner Tageblatt und Handelszeitung, no. 402, 1–2 Special and Teoria relativității generale.[7]
Schilpp 147; CP 7, 53 1921 A brief outline of the development of the theory of relativity Nature, 106, 782–784 Istoria fizicii.[8] Translated by R. W. Lawson.
Schilpp 148 1921 Geometrie und Erfahrung
Geometry and Experience
Sitzungsberichte der Preussischen Akademie der Wissenschaften, 1921 (pt. 1), 123–130 Teoria relativității generale.[9]
Schilpp 149; CP 7, 54 1921 Eine naheliegende Ergänzung des Fundaments der allgemeinen Relativitätstheorie
On a Natural Addition to the Foundation of the General Theory of Relativity
Sitzungsberichte der Preussischen Akademie der Wissenschaften, 1921 (pt. 1), 261–264 Teoria relativității generale.[10]
Schilpp 150; CP 7, 68 1921 Ein den Elementarprozess der Lichtemission betreffendes Experiment
On an Experiment Concerning the Elementary Process of Light Emission
Sitzungsberichte der Preussischen Akademie der Wissenschaften, 1921 (pt. 2), 882–883 Fotoni.[11]
Schilpp 151 1921 Report of a lecture at King's College on the development and present position of relativity, with quotations Nation and Athenaeum, 29, 431–432 Special and Teoria relativității generale. The German text is reproduced in Mein Weltbild (pp. 215–220); a full translation is found in The world as I see it. It was also reported in Nature (107, p. 504) and also in the Times (London) on 14 June, p. 8.
Schilpp 159 1922 Bemerkung zur Seletyschen Arbeit: Beiträge zum kosmologischen Problem
Observation of the Paper of Selety: Contributions to the Cosmological Problem§
Annalen der Physik (Anuarul de fizică) (ser. 4), 69, 436–438, link Teoria relativității generale.[12]
Schilpp 160 1922 Review of W. Pauli: Relativitätstheorie
Review of W. Pauli: Relativity Theory§
Naturwissenschaften, 10, 184–185 Special and Teoria relativității generale.[13]
Schilpp 161 1922 Emil Warburg als Forscher
Emil Warburg as Researcher§
Naturwissenschaften, 10, 823–828 Istoria fizicii.[14]
Schilpp 162 1922 Theorie der Lichtfortpflanzung in dispergierenden Medien
Theory of the Propagation of Light in Dispersive Media§
Sitzungsberichte der Preussischen Akademie der Wissenschaften, Phys.-math. Klasse, 1922, 18–22 Electromagnetism.[15]
Schilpp 163 1922 Bemerkung zu der Abhandlung von E. Trefftz: Statische Gravitationsfeld zweier Massenpunkte
Observation on the Work of E. Trefftz: Static Gravitational Field of Two Point Masses§
Sitzungsberichte der Preussischen Akademie der Wissenschaften, Phys.-math. Klasse, 1922, 448–449 Teoria relativității generale.
Schilpp 164 1922 Quantentheoretische Bemerkungen zum Experiment von Stern und Gerlach
Quantum Mechanical Observations on the Experiment of Stern and Gerlach§
Zeitschrift für Physik, 11, 31–34 Mecanică cuantică.[16] Co-authored with Paul Ehrenfest.
Schilpp 165 1922 Bemerkung zu der Arbeit von A. Friedmann: Über die Krümmung des Raumes
Observation on the Paper of A. Friedmann: On the Curvature of Space§
Zeitschrift für Physik, 11, 326 Teoria relativității generale.[17] Einstein withdrew this self-criticism in 1922 in the same journal Zeitschrift für Physik, volume 16, p. 228.
Schilpp 170 1923 Bemerkung zu der Notiz von W. Anderson: Neue Erklärung des kontinuierlichen Koronaspektrums
Observation on the Note of W. Anderson: New Explanation of the Continuous Spectrum of the Corona§
Astronomische Nachrichten, 219, 19 Solar physics.
Schilpp 171 1923 Experimentelle Bestimmung der Kanalweite von Filtern
Experimental Determination of the Pore Diameter in Filters§
Deutsche medizinische Wochenschrift, 49, 1012–1013 Fluid mechanics.[18] Co-authored with H. Mühsam.
Schilpp 172 1923 Beweis der Nichtexistenz eines überall regulären zentrisch symmetrischen Feldes nach der Feldtheorie von Kaluza
Proof of the Non-Existence of an Everywhere-Regular Centrally Symmetric Field According to the Field Theory of Kaluza§
Jerusalem University, Scripta, 1 (no. 7), 1–5 Classical unified field theories.[19] Co-authored with J. Grommer; also given in Hebrew.
Schilpp 173 1923 Theory of the affine field Nature, 112, 448–449 Classical unified field theories.[20] Translated by RW Lawson, but does not correspond to publication #175. Relatively non-mathematical.
Schilpp 174 1923 Zur allgemeinen Relativitätstheorie
On the General Theory of Relativity§
Sitzungsberichte der Preussischen Akademie der Wissenschaften, Physikalisch-mathematische Klasse, 1923, 32–38, 76–77 Teoria relativității generale.[21]
Schilpp 175 1923 Zur affinen Feldtheorie
On Affine Field Theory§
Sitzungsberichte der Preussischen Akademie der Wissenschaften, Physikalisch-mathematische Klasse, 1923, 137–140 Classical unified field theories.[22]
Schilpp 176 1923 Bietet die Feldtheorie Möglichkeiten für die Lösung des Quantenproblems?
Does Field Theory Offer Possibilities for Solving the Quantum Problem?§
Sitzungsberichte der Preussischen Akademie der Wissenschaften, Physikalisch-mathematische Klasse, 1923, 359–364 Classical unified field theories.[23]
Schilpp 177 1923 Théorie de relativité
Theory of Relativity§
Société française de philosophie, Bulletin, 22, 97–98, 101, 107, 111–112 Special and Teoria relativității generale.[24] Quoted in full in Nature, 112, p. 253.
Schilpp 178 1923 Quantentheorie des Strahlungsgleichgewichts
Quantum Theory of the Equilibrium of Radiation§
Zeitschrift für Physik, 19, 301–306 Fotoni.[25] Co-authored with Paul Ehrenfest.
Schilpp 181 1924 Antwort auf eine Bemerkung von W. Anderson
Response to an Observation of W. Anderson§
Astronomische Nachrichten, 221, 329–330
Schilpp 182 1924 April 20 Komptonsche Experiment
The Compton Experiment§
Berliner Tageblatt, 1. Beiblatt Fotoni.[26] Experiment showing that photons could carry momentum; for many physicists, this experiment was conclusive proof that photons were particles.
Schilpp 184 1924 Zum hundertjährigen Gedenkag von Lord Kelvins Geburt
On the 100th Anniversary of Lord Kelvin's Birth§
Naturwissenschaften, 12, 601–602 Istoria fizicii.[27]
Schilpp 185 1924 Quantentheorie des einatomigen idealen Gases
Quantum Theory of the Monatomic Ideal Gas§
Sitzungsberichte der Preussischen Akademie der Wissenschaften, Physikalisch-mathematische Klasse, 1924, 261–267 Fotoni and Fizică statistică.[28] First of two seminal papers (see reference #194), in which Einstein creates the theory of identical particles in Mecanică cuantică. In 1924, Satyendra Nath Bose derived Planck's law of black-body radiation from a modification of coarse-grained counting of phase space.[29] Einstein shows that this modification is equivalent to assuming that photons are rigorously identical, leading to the concept of coherent states. Einstein also extends Bose's formalism to material particles (bosons), predicting that they condense at sufficiently low temperatures, as verified experimentally.[30]
Schilpp 186 1924 Über den Äther
On the Aether§
Verhandlungen der Schweizerischen naturforschenden Gesellschaft, 105 (pt. 2), 85–93 Istoria fizicii.[31] Historical overview.
Schilpp 187 1924 Theorie der Radiometerkräfte
Theory of Radiometer Forces§
Zeitschrift für Physik, 27, 1–6 Fizică statistică. Treatment of the physics of radiometers, a science toy.
Schilpp 188 1924 [Note appended to a paper by Bose entitled "Wärmegleichgewicht im Strahlungsfeld bei Anwesenheit von Materie"]
Thermal Equilibrium in the Radiation Field in the Presence of Matter
Zeitschrift für Physik, 27, 392–392 Fotoni.[32]
Schilpp 193 1925 Elektron und allgemeine Reltivitätstheorie
The Electron and The General Theory of Relativity§
Physica, 5, 330–334 Teoria relativității generale.[33]
Schilpp 194 1925 Quantentheorie des einatomigen idealen Gases. 2. Abhandlung
Quantum Theory of the Monatomic Ideal Gas, Part II§
Sitzungsberichte der Preussischen Akademie der Wissenschaften (Berlin), Physikalisch-mathematische Klasse, 1925, 3–14 Fotoni and statistical mechanics.[34] Second of two seminal articles on identical particles, bosons and Bose-Einstein condensation; see reference #185 for the first.
Schilpp 195 1925 Quantentheorie des idealen Gases
Quantum theory of Ideal Gases§
Sitzungsberichte der Preussischen Akademie der Wissenschaften (Berlin), Physikalisch-mathematische Klasse, 1925, 18–25 Fotoni and statistical mechanics.[35]
Schilpp 196 1925 Einheitliche Feldtheorie von Gravitation und Elektrizität
Unified Field Theory of Gravity and Electricity§
Sitzungsberichte der Preussischen Akademie der Wissenschaften (Berlin), Physikalisch-mathematische Klasse, 1925, 414–419 Classical unified field theories.[36]
Schilpp 197 1925 Bemerkung zu P. Jordans Abhandlung: Theorie der Quantenstrahlung
Observation on P. Jordan's Work: Theory of Quantum Radiation§
Zeitschrift für Physik, 31, 784–785 Fotoni.[37]
Schilpp 199 1926 W. H. Julius, 1860–1925 Astrophysical Journal, 63, 196–198 Istoria fizicii.[38]
Schilpp 200 1926 Ursache der Mäanderbildung der Flussläufe und des sogenannten Baerschen Gesetzes
Origin of River-Meanders and the So-Called Law of Baer§
Naturwissenschaften, 14, 223–224 Earth science.[39] The physics of meandering rivers.


Eroare la citare: Există etichete <ref> pentru un grup numit „notes”, dar nu și o etichetă <references group="notes"/>

  1. ^ Eroare la citare: Etichetă <ref> invalidă; niciun text nu a fost furnizat pentru referințele numite PaisChap_d
  2. ^ Pais, Chap. 2, ref. E2.
  3. ^ Pais, Chap. 1, ref. E2.
  4. ^ Pais, Chap. 4, ref. E16; Chap. 5, ref. E14.
  5. ^ Eroare la citare: Etichetă <ref> invalidă; niciun text nu a fost furnizat pentru referințele numite PaisChap_e
  6. ^ Pais, Chap. 20, ref. E7.
  7. ^ Pais, Chap. 16, ref. E44.
  8. ^ Pais, Chap. 9, ref. E1.
  9. ^ Pais, Chap. 8, ref. E7; Chap. 12, ref. E22.
  10. ^ Pais, Chap. 17, ref. E34.
  11. ^ Pais, Chap. 17, ref. E6; Chap. 21, ref. E19.
  12. ^ Pais, Chap. 15, ref. E42a.
  13. ^ Pais, Chap. 7, ref. E36; Chap. 29, ref. E68.
  14. ^ Pais, Chap. 16, ref. E60.
  15. ^ Pais, Chap. 21, ref. E20.
  16. ^ Pais, Chap. 17, ref. E7; Chap. 21, ref. E22; Chap. 29, ref. E23.
  17. ^ Pais, Chap. 15, refs. E45 and E46.
  18. ^ Pais, Chap. 17, ref. E11; Chap. 29, ref. E26.
  19. ^ Pais, Chap. 17, ref. E8; Chap. 29, ref. E18.
  20. ^ Pais, Chap. 17, ref. E38.
  21. ^ Pais, Chap. 17, refs. E35 and E36.
  22. ^ Pais, Chap. 17, ref. E37.
  23. ^ Pais, Chap. 26, ref. E20; Chap. 29, ref. E19.
  24. ^ Pais, Chap. 1, ref. E7; Chap. 15, ref. E35; Chap. 16, ref. E72.
  25. ^ Pais, Chap. 17, ref. E10; Chap. 21, ref. E23; Chap. 29, ref. E24.
  26. ^ Pais, Chap. 21, ref. E24.
  27. ^ Pais, Chap. 16, ref. E59.
  28. ^ Pais, Chap. 4, ref. E39; Chap. 23, ref. E8.
  29. ^ Bose, SN (). „Plancks Gesetz und Lichtquantenhypothese”. Zeitschrift für Physik. 26: 178–181. doi:10.1007/BF01327326.  de
  30. ^ Anderson, MH (). „Observation of Bose–Einstein Condensation in a Dilute Atomic Vapor”. Science. 269 (5221): 198–201. doi:10.1126/science.269.5221.198. PMID 17789847. 
  31. ^ Pais, Chap. 23, ref. E6.
  32. ^ Pais, Chap. 4, ref. E38.
  33. ^ Pais, Chap. 26, ref. E33.
  34. ^ Pais, Chap. 4, ref. E40; Chap. 23, ref. E7; Chap. 24, ref. E2.
  35. ^ Pais, Chap. 4, ref. E41; Chap. 23, ref. E11.
  36. ^ Pais, Chap. 17, refs. E15 and E44; Chap. 29, ref. E20.
  37. ^ Pais, Chap. 23, ref. E9.
  38. ^ Pais, Chap. 12, ref. E2; Chap. 16, ref. E63.
  39. ^ Pais, Chap. 17, ref. E12.