시공간 (Korean Wikipedia)

Analysis of information sources in references of the Wikipedia article "시공간" in Korean language version.

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aps.org

Levine, Alaina G. (May 2016). "May 29, 1919: Eddington Observes Solar Eclipse to Test General Relativity". This Month in Physics History. APS News. American Physical Society.

journals.aps.org

Feng, W.-X. (3 August 2022). "Gravothermal phase transition, black holes and space dimensionality". Physical Review D. 106 (4): L041501. arXiv:2207.14317

link.aps.org

Scargill, J. H. C. (26 February 2020). "Existence of life in 2 + 1 dimensions". Physical Review Research. 2 (1): 013217.

archive.org

Pais, Abraham (1982). "Subtle is the Lord–": The Science and the Life of Albert Einstein (11th ed.). Oxford: Oxford University Press.
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Ratcliffe, J. G. (1994). "Hyperbolic geometry". Foundations of Hyperbolic Manifolds. New York. pp. 56–104.
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Lorentz, H. A.; Einstein, A.; Minkowski, H.; Weyl, H. (1952). The Principle of Relativity: A Collection of Original Memoirs on the Special and General Theory of Relativity. Dover Publications.
Mook, Delo E.; Vargish, Thoma s (1987). Inside Relativity. Princeton, New Jersey: Princeton University Press.
Le Verrier, Urbain (1859). "Lettre de M. Le Verrier à M. Faye sur la théorie de Mercure et sur le mouvement du périhélie de cette planète". Comptes rendus hebdomadaires des séances de l'Académie des Sciences. 49: 379–383.

arxiv.org

Scherr, Rachel E.; Shaffer, Peter S.; Vokos, Stamatis (July 2001). "Student understanding of time in special relativity: Simultaneity and reference frames" (PDF). American Journal of Physics. 69 (S1): S24–S35.
Weinstein, Galina (2012). "Max Born, Albert Einstein and Hermann Minkowski's Space–Time Formalism of Special Relativity". arXiv:1210.6929
Kastrup, H. A. (2008). "On the advancements of conformal transformations and their associated symmetries in geometry and theoretical physics". Annalen der Physik. 520 (9–10): 631–690. arXiv:0808.2730.
Byers, Nina (1998). “E. 대칭과 보존 법칙 사이의 깊은 연결에 대한 Noether의 발견”. arXiv:physics/9807044.
Franklin, Jerrold (2010). "Lorentz contraction, Bell's spaceships, and rigid body motion in special relativity". European Journal of Physics. 31 (2): 291–298. arXiv:0906.1919
Carroll, Sean M. (2 December 1997). "Lecture Notes on General Relativity". arXiv:gr-qc/9712019.
Williams, R. K. (2004). "Collimated escaping vortical polar e−–e+ jets intrinsically produced by rotating black holes and Penrose processes". The Astrophysical Journal. 611 (2): 952–963. arXiv:astro-ph/0404135.
Kuroda, Takami; Kotake, Kei; Takiwaki, Tomoya (2012). "Fully General Relativistic Simulations of Core-Collapse Supernovae with An Approximate Neutrino Transport". The Astrophysical Journal. 755 (1): 11. arXiv:1202.2487.
Everitt; et al. (2011). "Gravity Probe B: Final Results of a Space Experiment to Test General Relativity". Physical Review Letters. 106 (22): 221101. arXiv:1105.3456.
Iorio, L. (February 2017). "A comment on "A test of general relativity using the LARES and LAGEOS satellites and a GRACE Earth gravity model. Measurement of Earth's dragging of inertial frames," by I. Ciufolini et al". The European Physical Journal C. 77 (2): 73. arXiv:1701.06474.
Deser, S. (1970). "Self-Interaction and Gauge Invariance". General Relativity and Gravitation. 1 (18): 9–8. arXiv:gr-qc/0411023.
Strominger, Andrew (2017). "Lectures on the Infrared Structure of Gravity and Gauge Theory". arXiv:1703.05448. ...redacted transcript of a course given by the author at Harvard in spring semester 2016. It contains a pedagogical overview of recent developments connecting the subjects of soft theorems, the memory effect and asymptotic symmetries in four-dimensional QED, nonabelian gauge theory and gravity with applications to black holes. To be published Princeton University Press, 158 pages."
Tegmark, Max (1 April 1997). "On the dimensionality of spacetime". Classical and Quantum Gravity. 14 (4): L69–L75. arXiv:gr-qc/9702052.
Feng, W.-X. (3 August 2022). "Gravothermal phase transition, black holes and space dimensionality". Physical Review D. 106 (4): L041501. arXiv:2207.14317

bnf.fr

gallica.bnf.fr

Close [28] Cartan, É.; Fano, G. (1955) [1915]. "La théorie des groupes continus et la géométrie". Encyclopédie des Sciences Mathématiques Pures et Appliquées. 3 (1): 39–43. (Only pages 1–21 were published in 1915, the entire article including pp. 39–43 concerning the groups of Laguerre and Lorentz was posthumously published in 1955 in Cartan's collected papers, and was reprinted in the Encyclopédie in 1991.)

books.google.com

Schutz, Bernard (2004). 《Gravity from the Ground Up: An Introductory Guide to Gravity and General Relativity》 (영어) Reprint판. Cambridge: Cambridge University Press. ISBN 0-521-45506-5. 2017년 5월 24일에 확인함.
Hughes, Stefan (2013). Catchers of the Light: Catching Space: Origins, Lunar, Solar, Solar System and Deep Space. Paphos, Cyprus: ArtDeCiel Publishing. pp. 202–233.
Mould, Richard A. (1994). Basic Relativity (1st ed.). Springer. p. 42.
Lerner, Lawrence S. (1997). Physics for Scientists and Engineers, Volume 2 (1st ed.). Jones & Bartlett Pub. p. 1047.
Forshaw, Jeffrey; Smith, Gavin (2014). Dynamics and Relativity. John Wiley & Sons. p. 118.
Griffiths, David J. (2013). Revolutions in Twentieth-Century Physics. Cambridge: Cambridge University Press. p. 60.

bourbaphy.fr

Darrigol, O. (2005), "The Genesis of the theory of relativity" (PDF), Séminaire Poincaré, 1: 1–22,

caltech.edu

feynmanlectures.caltech.edu

Feynman, R. P.; Leighton, R. B.; Sands, M. (1964). The Feynman Lectures on Physics, vol. 2 (New Millenium ed.). Basic Books. pp. 13–6 to 13–11.

doi.org

Galison, Peter Louis (1979). "Minkowski's space–time: From visual thinking to the absolute world". Historical Studies in the Physical Sciences. 10: 85–121. doi:10.2307/27757388.
Tangherlini, F. R. (1963). "Atoms in Higher Dimensions". Nuovo Cimento. 14 (27): 636. doi:10.1007/BF02784569.

edition-open-sources.org

Bondi, Hermann (1957). DeWitt, Cecile M.; Rickles, Dean (eds.). The Role of Gravitation in Physics: Report from the 1957 Chapel Hill Conference. Berlin: Max Planck Research Library. pp. 159–162.

gsu.edu

hyperphysics.phy-astr.gsu.edu

Nave, R. "Energetics of Charged Pion Decay". Hyperphysics. Department of Physics and Astronomy, Georgia State University

harvard.edu

ui.adsabs.harvard.edu

Einstein, Albert (1905). "On the Electrodynamics of Moving Bodies ( Zur Elektrodynamik bewegter Körper)". Annalen der Physik. 322 (10): 891–921. Bibcode:1905AnP...322..891E.
Williams, R. K. (1995). "Extracting X rays, Ύ rays, and relativistic e−–e+ pairs from supermassive Kerr black holes using the Penrose mechanism". Physical Review D. 51 (10): 5387–5427. Bibcode:1995PhRvD..51.5387W.
Kreuzer, L. B. (1968). "Experimental measurement of the equivalence of active and passive gravitational mass". Physical Review. 169 (5): 1007–1011. Bibcode:1968PhRv..169.1007K.
Bartlett, D. F.; Van Buren, Dave (1986). "Equivalence of active and passive gravitational mass using the moon". Phys. Rev. Lett. 57 (1): 21–24. Bibcode:1986PhRvL..57...21B.
Rosen, N. (1940). "General Relativity and Flat Space I". Physical Review. 57 (2): 147–150. Bibcode:1940PhRv...57..147R.
Weinberg, S. (1964). "Derivation of Gauge Invariance and the Equivalence Principle from Lorentz Invariance of the S-Matrix". Physics Letters. 9 (4): 357–359. Bibcode:1964PhL.....9..357W.
Bondi, H.; Van der Burg, M.G.J.; Metzner, A. (1962). "Gravitational waves in general relativity: VII. Waves from axisymmetric isolated systems". Proceedings of the Royal Society of London A. A269 (1336): 21–52. Bibcode:1962RSPSA.269...21B.
Sachs, R. (1962). "Asymptotic symmetries in gravitational theory". Physical Review. 128 (6): 2851–2864. Bibcode:1962PhRv..128.2851S.

articles.adsabs.harvard.edu

Will, C. M. (1976). "Active mass in relativistic gravity-Theoretical interpretation of the Kreuzer experiment". The Astrophysical Journal. 204: 224–234.

lightandmatter.com

Crowell, Benjamin (2000). General Relativity. Fullerton, CA: Light and Matter. pp. 241–258.

lindahall.org

"George Francis FitzGerald". The Linda Hall Library. Retrieved 13 August 2022.

mit.edu

space.mit.edu

Tegmark, Max (April 1997). "On the dimensionality of spacetime" (PDF). Classical and Quantum Gravity. 14 (4): L69–L75.

nationalgeographic.com

news.nationalgeographic.com

Worrall, Simon (4 November 2015). "The Hunt for Vulcan, the Planet That Wasn't There". National Geographic.

nih.gov

ncbi.nlm.nih.gov

Rose, H. H. (21 April 2008). "Optics of high-performance electron microscopes". Science and Technology of Advanced Materials. 9 (1): 014107.
Ciufolini, Ignazio; Paolozzi, Antonio Rolf Koenig; Pavlis, Erricos C.; Koenig, Rolf (2016). "A test of general relativity using the LARES and LAGEOS satellites and a GRACE Earth gravity model". Eur Phys J C. 76 (3): 120.

nobelprize.org

"The Nobel Prize in Physics 1902". NobelPrize.org. Retrieved 13 August 2022.

nytimes.com

Gugliotta, G. (16 February 2009). "Perseverance Is Paying Off for a Test of Relativity in Space". New York Times.

phys.org

"Einstein right using the most sensitive Earth rotation sensors ever made". Phys.org. Science X network.

physicsworld.com

Cartlidge, Edwin (20 January 2016). "Underground ring lasers will put general relativity to the test". physicsworld.com. Institute of Physics.

projecteuclid.org

Grishchuk, L. P.; Petrov, A. N.; Popova, A. D. (1984). "Exact Theory of the (Einstein) Gravitational Field in an Arbitrary Background Space–Time". Communications in Mathematical Physics. 94 (3): 379–396.

researchgate.net

Lawden, D. F. (1982). Introduction to Tensor Calculus, Relativity and Cosmology (3rd ed.). Mineola, New York: Dover Publications. p. 7.

stanford.edu

plato.stanford.edu

Rynasiewicz, Robert. "Newton's Views on Space, Time, and Motion". Stanford Encyclopedia of Philosophy. Metaphysics Research Lab, Stanford University. Retrieved 24 March 2017.
Curiel, Erik; Bokulich, Peter. "Lightcones and Causal Structure". Stanford Encyclopedia of Philosophy. Metaphysics Research Lab, Stanford University. Retrieved 26 March 2017.
Savitt, Steven. "Being and Becoming in Modern Physics. 3. The Special Theory of Relativity". The Stanford Encyclopedia of Philosophy. Metaphysics Research Lab, Stanford University. Retrieved 26 March 2017.

einstein.stanford.edu

"Gravity Probe B: FAQ". Retrieved 2 July 2017.
Everitt, C.W.F.; Parkinson, B.W. (2009). "Gravity Probe B Science Results—NASA Final Report" (PDF).

tcd.ie

maths.tcd.ie

maths.tcd.ie

technologyreview.com

"Life could exist in a 2D universe (according to physics, anyway)". MIT Technology Review. Retrieved 16 June 2021.

ucr.edu

math.ucr.edu

Weiss, Michael. "The Twin Paradox". The Physics and Relativity FAQ. Retrieved 10 April 2017.
Gibbs, Philip. "Can Special Relativity Handle Acceleration?". The Physics and Relativity FAQ. math.ucr.edu. Retrieved 28 May 2017.

universetoday.com

Williams, Matt (28 January 2022). "What is Einstein's Theory of Relativity?". Universe Today.

utm.edu

iep.utm.edu

Murzi, Mauro. "Jules Henri Poincaré (1854–1912)". Internet Encyclopedia of Philosophy (ISSN 2161-0002). Retrieved 9 April 2018.

web.archive.org

Stachel, John (2005). "Fresnel's (Dragging) Coefficient as a Challenge to 19th Century Optics of Moving Bodies." (PDF). In Kox, A. J.; Eisenstaedt, Jean (eds.). The Universe of General Relativity. Boston: Birkhäuser. pp. 1–13.
Walter, Scott A. (2007). "Breaking in the 4-vectors: the four-dimensional movement in gravitation, 1905–1910". In Renn, Jürgen; Schemmel, Matthias (eds.). The Genesis of General Relativity, Volume 3. Berlin: Springer. pp. 193–252.
Mester, John. "Experimental Tests of General Relativity" (PDF). Laboratoire Univers et Théories. Archived from the original (PDF) on 18 March 2017.
Thorne, Kip S. (1988). Fairbank, J. D.; Deaver Jr., B. S.; Everitt, W. F.; Michelson, P. F. (eds.). Near zero: New Frontiers of Physics (PDF). W. H. Freeman and Company. pp. 573–586.
Wollack, Edward J. (10 December 2010). "Cosmology: The Study of the Universe". Universe 101: Big Bang Theory. NASA.
Bär, Christian; Fredenhagen, Klaus (2009). "Lorentzian Manifolds" (PDF). Quantum Field Theory on Curved Spacetimes: Concepts and Mathematical Foundations. Dordrecht: Springer. pp. 39–58.
Skow, Bradford (2007). "What makes time different from space?" (PDF). Noûs. 41 (2): 227–252.

wikipedia.org

en.wikipedia.org

푸앵카레가 채택한 작동 절차는 아인슈타인 동기화(Einstein synchronisation)로 알려진 절차와 본질적으로 동일했지만, 19세기 중반에 전신 기사에 의해 이미 널리 사용된 절차였다. 기본적으로 두 개의 시계를 동기화하려면 하나에서 다른 시계으로 광 신호를 깜박이고 플래시가 도달하는 데 걸리는 시간을 조정한다.
예를 들어, 로런츠 군은 4차원의 등각군(conformal group)의 부분군이다. 로런츠 군은 평면을 평면으로 변환하는 라구에레 군(Laguerre group)과 동형_isomorphic이며, 그것은 평면의 뫼비우스 군과 동형이며, 쌍곡선 모형(hyperboloid model)으로 종종 표현되는 쌍곡공간의 등형 군과 동형이다.
데카르트 평면에서 일반 회전은 원을 변경하지 않은 상태로 유지한다. 시공간에서 쌍곡선 회전은 쌍곡선 메트릭(hyperbolic metric)을 유지한다.
모든 실험이 적색편이 측면에서 효과를 특징짓는 것은 아니다. 예를 들어, 쿤디그 실험(Kündig experiment)은 원심분리기 로터의 중심에 설치된 뫼스바우어_Mössbauer 소스 설정과 림에 있는 흡수기를 사용하여 횡방향 청색편이를 측정하기 위해 설정되었다.
신속도는 자연스럽게 로런츠 그룹의 리 대수 내에서 순수 부스트 생성기의 좌표로 발생한다. 마찬가지로, 회전 각도는 리 대수에서 순수 회전 생성기의 좌표(모듈로 2π)로 자연스럽게 발생한다. (그들은 함께 전체 리 대수학을 좌표화한다.) 주목할 만한 차이점은 회전 각도에서 회전은 주기적인 반면, 가속도는 주기적인 것이 아니라 일대일이라는 것이다. 부스트와 회전의 유사성은 형식적인 유사성이다.

wikisource.org

en.wikisource.org

Poincare, Henri (1906). "On the Dynamics of the Electron (Sur la dynamique de l'électron)". Rendiconti del Circolo Matematico di Palermo. 21: 129–176. Bibcode:1906RCMP...21..129P.
Einstein, Albert (1905). "On the Electrodynamics of Moving Bodies ( Zur Elektrodynamik bewegter Körper)". Annalen der Physik. 322 (10): 891–921. Bibcode:1905AnP...322..891E.
Minkowski, Hermann (1909). "Raum und Zeit" [Space and Time]. Jahresbericht der Deutschen Mathematiker-Vereinigung. B.G. Teubner: 1–14.
Leibniz, Gottfried (1880). "Discourse on Metaphysics". Die philosophischen schriften von Gottfried Wilhelm Leibniz, Volume 4. Weidmann. pp. 427–463.

wolfram.com

mathworld.wolfram.com

Rowland, Todd. "Manifold". Wolfram Mathworld. Wolfram Research. Retrieved 24 March 2017.

zenodo.org

Ehrenfest, Paul (1920). "How do the fundamental laws of physics make manifest that Space has 3 dimensions?". Annalen der Physik. 61 (5): 440–446. Also see Ehrenfest, P. (1917) "In what way does it become manifest in the fundamental laws of physics that space has three dimensions?" Proceedings of the Amsterdam Academy20: 200.