Tidal acceleration (English Wikipedia)

Analysis of information sources in references of the Wikipedia article "Tidal acceleration" in English language version.

refsWebsite

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16doi.org

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14harvard.edu

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8semanticscholar.org

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3books.google.com

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aanda.org

J.G. Williams, D.H. Boggs and W. M.Folkner (2013). DE430 Lunar Orbit, Physical Librations, and Surface Coordinates p.10. "These derived values depend on a theory which is not accurate to the number of digits given." See also : Chapront, Chapront-Touzé, Francou (2002). A new determination of lunar orbital parameters, precession constant and tidal acceleration from LLR measurements

archive.org

Richard Dunthorne (1749), "A Letter from the Rev. Mr. Richard Dunthorne to the Reverend Mr. Richard Mason F. R. S. and Keeper of the Wood-Wardian Museum at Cambridge, concerning the Acceleration of the Moon", Philosophical Transactions, Vol. 46 (1749–1750) #492, pp.162–172; also given in Philosophical Transactions (abridgements) (1809), vol.9 (for 1744–49), p669–675 as "On the Acceleration of the Moon, by the Rev. Richard Dunthorne".
Britton, John (1992). Models and Precision: The Quality of Ptolemy's Observations and Parameters. Garland Publishing Inc. p. 157. ISBN 978-0815302155.
D. E. Cartwright (2001), "Tides: a scientific history", (Cambridge University Press 2001), chapter 10, section: "Lunar acceleration, Earth retardation and tidal friction" at pages 144–146.

arxiv.org

Murphy, T. W. Jr.; Adelberger, E. G.; Battat, J. B. R.; et, al. (2011). "Laser ranging to the lost Lunokhod 1 reflector". Icarus. 211 (2): 1103–1108. arXiv:1009.5720. Bibcode:2011Icar..211.1103M. doi:10.1016/j.icarus.2010.11.010. ISSN 0019-1035. S2CID 11247676.
Wiegert, P.; Galiazzo, M.A. (August 2017). "Meteorites from Phobos and Deimos at Earth?". Planetary and Space Science. 142: 48–52. arXiv:1705.02260. doi:10.1016/j.pss.2017.05.001. ISSN 0032-0633.
Schröder, K.-P.; Smith, R.C. (2008). "Distant future of the Sun and Earth revisited". Monthly Notices of the Royal Astronomical Society. 386 (1): 155–163. arXiv:0801.4031. Bibcode:2008MNRAS.386..155S. doi:10.1111/j.1365-2966.2008.13022.x. S2CID 10073988. See also Palmer, J. (2008). "Hope dims that Earth will survive Sun's death". New Scientist. Retrieved 2008-03-24.

bnf.fr

gallica.bnf.fr

J de Lalande (1786): "Sur les equations seculaires du soleil et de la lune", Memoires de l'Academie Royale des Sciences, pp.390–397, at page 395.

books.google.com

E Halley (1695), "Some Account of the Ancient State of the City of Palmyra, with Short Remarks upon the Inscriptions Found there", Phil. Trans., vol.19 (1695–1697), pages 160–175; esp. at pages 174–175. (see also transcription using a modern font here)
J D North (2008), "Cosmos: an illustrated history of astronomy and cosmology", (University of Chicago Press, 2008), chapter 14, at page 454.
F. R. Stephenson (1997). Historical Eclipses and Earth's Rotation. Cambridge University Press. ISBN 978-0-521-46194-8.

doi.org

Adams, J C (1853). "On the Secular Variation of the Moon's Mean Motion". Phil. Trans. R. Soc. Lond. 143: 397–406. doi:10.1098/rstl.1853.0017. S2CID 186213591.
Khalid, M.; Sultana, M.; Zaidi, F. (2014). "Delta: Polynomial Approximation of Time Period 1620–2013". Journal of Astrophysics. 2014: 1–4. doi:10.1155/2014/480964.
:(1) In McCarthy, D D; Hackman, C; Nelson, R A (2008). "The Physical Basis of the Leap Second" (PDF). Astronomical Journal. 136 (5): 1906–1908. Bibcode:2008AJ....136.1906M. doi:10.1088/0004-6256/136/5/1906. Archived from the original on September 22, 2017. it is stated (page 1908), that "the SI second is equivalent to an older measure of the second of UT1, which was too small to start with and further, as the duration of the UT1 second increases, the discrepancy widens." :(2) In the late 1950s, the cesium standard was used to measure both the current mean length of the second of mean solar time (UT2) (result: 9192631830 cycles) and also the second of ephemeris time (ET) (result:9192631770±20 cycles), see "Time Scales", by L. Essen, in Metrologia, vol.4 (1968), pp.161–165, on p.162. As is well known, the 9192631770 figure was chosen for the SI second. L Essen in the same 1968 article (p.162) stated that this "seemed reasonable in view of the variations in UT2".
Munk (1997). "Once again: once again—tidal friction". Progress in Oceanography. 40 (1–4): 7–35. Bibcode:1997PrOce..40....7M. doi:10.1016/S0079-6611(97)00021-9.
Williams, James G.; Boggs, Dale H. (2016). "Secular tidal changes in lunar orbit and Earth rotation". Celestial Mechanics and Dynamical Astronomy. 126 (1): 89–129. Bibcode:2016CeMDA.126...89W. doi:10.1007/s10569-016-9702-3. ISSN 0923-2958. S2CID 124256137.
Munk, Walter (1997). "Once again: once again—tidal friction". Progress in Oceanography. 40 (1–4): 7–35. Bibcode:1997PrOce..40....7M. doi:10.1016/S0079-6611(97)00021-9.
Munk, W.; Wunsch, C (1998). "Abyssal recipes II: energetics of tidal and wind mixing". Deep-Sea Research Part I. 45 (12): 1977–2010. Bibcode:1998DSRI...45.1977M. doi:10.1016/S0967-0637(98)00070-3.
Williams, George E. (2000). "Geological constraints on the Precambrian history of Earth's rotation and the Moon's orbit". Reviews of Geophysics. 38 (1): 37–60. Bibcode:2000RvGeo..38...37W. CiteSeerX 10.1.1.597.6421. doi:10.1029/1999RG900016. S2CID 51948507.
Winter, Niels J. de; Goderis, Steven; Malderen, Stijn J. M. Van; Sinnesael, Matthias; Vansteenberge, Stef; Snoeck, Christophe; Belza, Joke; Vanhaecke, Frank; Claeys, Philippe (2020). "Subdaily-Scale Chemical Variability in a Torreites Sanchezi Rudist Shell: Implications for Rudist Paleobiology and the Cretaceous Day-Night Cycle". Paleoceanography and Paleoclimatology. 35 (2): e2019PA003723. doi:10.1029/2019PA003723. hdl:1854/LU-8685501. ISSN 2572-4525.
Murphy, T. W. Jr.; Adelberger, E. G.; Battat, J. B. R.; et, al. (2011). "Laser ranging to the lost Lunokhod 1 reflector". Icarus. 211 (2): 1103–1108. arXiv:1009.5720. Bibcode:2011Icar..211.1103M. doi:10.1016/j.icarus.2010.11.010. ISSN 0019-1035. S2CID 11247676.
Stephenson, F.R.; Morrison, L.V. (1995). "Long-term fluctuations in the Earth's rotation: 700 BC to AD 1990" (PDF). Philosophical Transactions of the Royal Society of London, Series A. 351 (1695): 165–202. Bibcode:1995RSPTA.351..165S. doi:10.1098/rsta.1995.0028. S2CID 120718607.
Dickey, Jean O.; Bender, PL; Faller, JE; Newhall, XX; Ricklefs, RL; Ries, JG; Shelus, PJ; Veillet, C; et al. (1994). "Lunar Laser ranging: a continuing legacy of the Apollo program" (PDF). Science. 265 (5171): 482–90. Bibcode:1994Sci...265..482D. doi:10.1126/science.265.5171.482. PMID 17781305. S2CID 10157934.
Stephenson, F. R.; Morrison, L. V.; Hohenkerk, C. Y. (2016). "Measurement of the Earth's rotation: 720 BC to AD 2015". Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences. 472 (2196): 20160404. Bibcode:2016RSPSA.47260404S. doi:10.1098/rspa.2016.0404. PMC 5247521. PMID 28119545.
Morrison, L. V.; Stephenson, F. R.; Hohenkerk, C. Y.; Zawilski, M. (2021). "Addendum 2020 to 'Measurement of the Earth's rotation: 720 BC to AD 2015'". Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences. 477 (2246): 20200776. Bibcode:2021RSPSA.47700776M. doi:10.1098/rspa.2020.0776. S2CID 231938488.
Wiegert, P.; Galiazzo, M.A. (August 2017). "Meteorites from Phobos and Deimos at Earth?". Planetary and Space Science. 142: 48–52. arXiv:1705.02260. doi:10.1016/j.pss.2017.05.001. ISSN 0032-0633.
Schröder, K.-P.; Smith, R.C. (2008). "Distant future of the Sun and Earth revisited". Monthly Notices of the Royal Astronomical Society. 386 (1): 155–163. arXiv:0801.4031. Bibcode:2008MNRAS.386..155S. doi:10.1111/j.1365-2966.2008.13022.x. S2CID 10073988. See also Palmer, J. (2008). "Hope dims that Earth will survive Sun's death". New Scientist. Retrieved 2008-03-24.

dtic.mil

apps.dtic.mil

:(1) In McCarthy, D D; Hackman, C; Nelson, R A (2008). "The Physical Basis of the Leap Second" (PDF). Astronomical Journal. 136 (5): 1906–1908. Bibcode:2008AJ....136.1906M. doi:10.1088/0004-6256/136/5/1906. Archived from the original on September 22, 2017. it is stated (page 1908), that "the SI second is equivalent to an older measure of the second of UT1, which was too small to start with and further, as the duration of the UT1 second increases, the discrepancy widens." :(2) In the late 1950s, the cesium standard was used to measure both the current mean length of the second of mean solar time (UT2) (result: 9192631830 cycles) and also the second of ephemeris time (ET) (result:9192631770±20 cycles), see "Time Scales", by L. Essen, in Metrologia, vol.4 (1968), pp.161–165, on p.162. As is well known, the 9192631770 figure was chosen for the SI second. L Essen in the same 1968 article (p.162) stated that this "seemed reasonable in view of the variations in UT2".

handle.net

hdl.handle.net

Winter, Niels J. de; Goderis, Steven; Malderen, Stijn J. M. Van; Sinnesael, Matthias; Vansteenberge, Stef; Snoeck, Christophe; Belza, Joke; Vanhaecke, Frank; Claeys, Philippe (2020). "Subdaily-Scale Chemical Variability in a Torreites Sanchezi Rudist Shell: Implications for Rudist Paleobiology and the Cretaceous Day-Night Cycle". Paleoceanography and Paleoclimatology. 35 (2): e2019PA003723. doi:10.1029/2019PA003723. hdl:1854/LU-8685501. ISSN 2572-4525.

harvard.edu

ui.adsabs.harvard.edu

:(1) In McCarthy, D D; Hackman, C; Nelson, R A (2008). "The Physical Basis of the Leap Second" (PDF). Astronomical Journal. 136 (5): 1906–1908. Bibcode:2008AJ....136.1906M. doi:10.1088/0004-6256/136/5/1906. Archived from the original on September 22, 2017. it is stated (page 1908), that "the SI second is equivalent to an older measure of the second of UT1, which was too small to start with and further, as the duration of the UT1 second increases, the discrepancy widens." :(2) In the late 1950s, the cesium standard was used to measure both the current mean length of the second of mean solar time (UT2) (result: 9192631830 cycles) and also the second of ephemeris time (ET) (result:9192631770±20 cycles), see "Time Scales", by L. Essen, in Metrologia, vol.4 (1968), pp.161–165, on p.162. As is well known, the 9192631770 figure was chosen for the SI second. L Essen in the same 1968 article (p.162) stated that this "seemed reasonable in view of the variations in UT2".
Munk (1997). "Once again: once again—tidal friction". Progress in Oceanography. 40 (1–4): 7–35. Bibcode:1997PrOce..40....7M. doi:10.1016/S0079-6611(97)00021-9.
Williams, James G.; Boggs, Dale H. (2016). "Secular tidal changes in lunar orbit and Earth rotation". Celestial Mechanics and Dynamical Astronomy. 126 (1): 89–129. Bibcode:2016CeMDA.126...89W. doi:10.1007/s10569-016-9702-3. ISSN 0923-2958. S2CID 124256137.
Munk, Walter (1997). "Once again: once again—tidal friction". Progress in Oceanography. 40 (1–4): 7–35. Bibcode:1997PrOce..40....7M. doi:10.1016/S0079-6611(97)00021-9.
Munk, W.; Wunsch, C (1998). "Abyssal recipes II: energetics of tidal and wind mixing". Deep-Sea Research Part I. 45 (12): 1977–2010. Bibcode:1998DSRI...45.1977M. doi:10.1016/S0967-0637(98)00070-3.
Williams, George E. (2000). "Geological constraints on the Precambrian history of Earth's rotation and the Moon's orbit". Reviews of Geophysics. 38 (1): 37–60. Bibcode:2000RvGeo..38...37W. CiteSeerX 10.1.1.597.6421. doi:10.1029/1999RG900016. S2CID 51948507.
Murphy, T. W. Jr.; Adelberger, E. G.; Battat, J. B. R.; et, al. (2011). "Laser ranging to the lost Lunokhod 1 reflector". Icarus. 211 (2): 1103–1108. arXiv:1009.5720. Bibcode:2011Icar..211.1103M. doi:10.1016/j.icarus.2010.11.010. ISSN 0019-1035. S2CID 11247676.
Stephenson, F.R.; Morrison, L.V. (1995). "Long-term fluctuations in the Earth's rotation: 700 BC to AD 1990" (PDF). Philosophical Transactions of the Royal Society of London, Series A. 351 (1695): 165–202. Bibcode:1995RSPTA.351..165S. doi:10.1098/rsta.1995.0028. S2CID 120718607.
Dickey, Jean O.; Bender, PL; Faller, JE; Newhall, XX; Ricklefs, RL; Ries, JG; Shelus, PJ; Veillet, C; et al. (1994). "Lunar Laser ranging: a continuing legacy of the Apollo program" (PDF). Science. 265 (5171): 482–90. Bibcode:1994Sci...265..482D. doi:10.1126/science.265.5171.482. PMID 17781305. S2CID 10157934.
Stephenson, F. R.; Morrison, L. V.; Hohenkerk, C. Y. (2016). "Measurement of the Earth's rotation: 720 BC to AD 2015". Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences. 472 (2196): 20160404. Bibcode:2016RSPSA.47260404S. doi:10.1098/rspa.2016.0404. PMC 5247521. PMID 28119545.
Morrison, L. V.; Stephenson, F. R.; Hohenkerk, C. Y.; Zawilski, M. (2021). "Addendum 2020 to 'Measurement of the Earth's rotation: 720 BC to AD 2015'". Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences. 477 (2246): 20200776. Bibcode:2021RSPSA.47700776M. doi:10.1098/rspa.2020.0776. S2CID 231938488.
Zahn, J.-P. (1977). "Tidal Friction in Close Binary Stars". Astron. Astrophys. 57: 383–394. Bibcode:1977A&A....57..383Z.
Schröder, K.-P.; Smith, R.C. (2008). "Distant future of the Sun and Earth revisited". Monthly Notices of the Royal Astronomical Society. 386 (1): 155–163. arXiv:0801.4031. Bibcode:2008MNRAS.386..155S. doi:10.1111/j.1365-2966.2008.13022.x. S2CID 10073988. See also Palmer, J. (2008). "Hope dims that Earth will survive Sun's death". New Scientist. Retrieved 2008-03-24.

articles.adsabs.harvard.edu

F R Stephenson (2002), "Harold Jeffreys Lecture 2002: Historical eclipses and Earth's rotation", in Astronomy & Geophysics, vol.44 (2002), pp. 2.22–2.27.

iers.org

"IERS – Observed values of UT1-TAI, 1962-1999". www.iers.org. Archived from the original on 2019-06-22. Retrieved 2019-03-14.
"LOD". Archived from the original on September 8, 2001.

jstor.org

E Halley (1695), "Some Account of the Ancient State of the City of Palmyra, with Short Remarks upon the Inscriptions Found there", Phil. Trans., vol.19 (1695–1697), pages 160–175; esp. at pages 174–175. (see also transcription using a modern font here)

leapsecond.com

:(1) In McCarthy, D D; Hackman, C; Nelson, R A (2008). "The Physical Basis of the Leap Second" (PDF). Astronomical Journal. 136 (5): 1906–1908. Bibcode:2008AJ....136.1906M. doi:10.1088/0004-6256/136/5/1906. Archived from the original on September 22, 2017. it is stated (page 1908), that "the SI second is equivalent to an older measure of the second of UT1, which was too small to start with and further, as the duration of the UT1 second increases, the discrepancy widens." :(2) In the late 1950s, the cesium standard was used to measure both the current mean length of the second of mean solar time (UT2) (result: 9192631830 cycles) and also the second of ephemeris time (ET) (result:9192631770±20 cycles), see "Time Scales", by L. Essen, in Metrologia, vol.4 (1968), pp.161–165, on p.162. As is well known, the 9192631770 figure was chosen for the SI second. L Essen in the same 1968 article (p.162) stated that this "seemed reasonable in view of the variations in UT2".

newscientist.com

Schröder, K.-P.; Smith, R.C. (2008). "Distant future of the Sun and Earth revisited". Monthly Notices of the Royal Astronomical Society. 386 (1): 155–163. arXiv:0801.4031. Bibcode:2008MNRAS.386..155S. doi:10.1111/j.1365-2966.2008.13022.x. S2CID 10073988. See also Palmer, J. (2008). "Hope dims that Earth will survive Sun's death". New Scientist. Retrieved 2008-03-24.

nih.gov

pubmed.ncbi.nlm.nih.gov

Dickey, Jean O.; Bender, PL; Faller, JE; Newhall, XX; Ricklefs, RL; Ries, JG; Shelus, PJ; Veillet, C; et al. (1994). "Lunar Laser ranging: a continuing legacy of the Apollo program" (PDF). Science. 265 (5171): 482–90. Bibcode:1994Sci...265..482D. doi:10.1126/science.265.5171.482. PMID 17781305. S2CID 10157934.
Stephenson, F. R.; Morrison, L. V.; Hohenkerk, C. Y. (2016). "Measurement of the Earth's rotation: 720 BC to AD 2015". Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences. 472 (2196): 20160404. Bibcode:2016RSPSA.47260404S. doi:10.1098/rspa.2016.0404. PMC 5247521. PMID 28119545.

ncbi.nlm.nih.gov

Stephenson, F. R.; Morrison, L. V.; Hohenkerk, C. Y. (2016). "Measurement of the Earth's rotation: 720 BC to AD 2015". Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences. 472 (2196): 20160404. Bibcode:2016RSPSA.47260404S. doi:10.1098/rspa.2016.0404. PMC 5247521. PMID 28119545.

numdam.org

archive.numdam.org

See also P Puiseux (1879), "Sur l'acceleration seculaire du mouvement de la Lune", Annales Scientifiques de l'Ecole Normale Superieure, 2nd series vol.8 (1879), pp.361–444, at pages 361–365.

psu.edu

citeseerx.ist.psu.edu

Williams, George E. (2000). "Geological constraints on the Precambrian history of Earth's rotation and the Moon's orbit". Reviews of Geophysics. 38 (1): 37–60. Bibcode:2000RvGeo..38...37W. CiteSeerX 10.1.1.597.6421. doi:10.1029/1999RG900016. S2CID 51948507.

royalsocietypublishing.org

rstl.royalsocietypublishing.org

Richard Dunthorne (1749), "A Letter from the Rev. Mr. Richard Dunthorne to the Reverend Mr. Richard Mason F. R. S. and Keeper of the Wood-Wardian Museum at Cambridge, concerning the Acceleration of the Moon", Philosophical Transactions, Vol. 46 (1749–1750) #492, pp.162–172; also given in Philosophical Transactions (abridgements) (1809), vol.9 (for 1744–49), p669–675 as "On the Acceleration of the Moon, by the Rev. Richard Dunthorne".

rsta.royalsocietypublishing.org

Stephenson, F.R.; Morrison, L.V. (1995). "Long-term fluctuations in the Earth's rotation: 700 BC to AD 1990" (PDF). Philosophical Transactions of the Royal Society of London, Series A. 351 (1695): 165–202. Bibcode:1995RSPTA.351..165S. doi:10.1098/rsta.1995.0028. S2CID 120718607.

science.org

Puneet Kollipara (22 January 2014), "Earth Won't Die as Soon as Thought", Science.

sciencedaily.com

"Ancient shell shows days were half-hour shorter 70 million years ago: Beer stein-shaped distant relative of modern clams captured snapshots of hot days in the late Cretaceous". ScienceDaily. Retrieved 2020-03-14.

sciencedirect.com

Murphy, T. W. Jr.; Adelberger, E. G.; Battat, J. B. R.; et, al. (2011). "Laser ranging to the lost Lunokhod 1 reflector". Icarus. 211 (2): 1103–1108. arXiv:1009.5720. Bibcode:2011Icar..211.1103M. doi:10.1016/j.icarus.2010.11.010. ISSN 0019-1035. S2CID 11247676.

semanticscholar.org

api.semanticscholar.org

Adams, J C (1853). "On the Secular Variation of the Moon's Mean Motion". Phil. Trans. R. Soc. Lond. 143: 397–406. doi:10.1098/rstl.1853.0017. S2CID 186213591.
Williams, James G.; Boggs, Dale H. (2016). "Secular tidal changes in lunar orbit and Earth rotation". Celestial Mechanics and Dynamical Astronomy. 126 (1): 89–129. Bibcode:2016CeMDA.126...89W. doi:10.1007/s10569-016-9702-3. ISSN 0923-2958. S2CID 124256137.
Williams, George E. (2000). "Geological constraints on the Precambrian history of Earth's rotation and the Moon's orbit". Reviews of Geophysics. 38 (1): 37–60. Bibcode:2000RvGeo..38...37W. CiteSeerX 10.1.1.597.6421. doi:10.1029/1999RG900016. S2CID 51948507.
Murphy, T. W. Jr.; Adelberger, E. G.; Battat, J. B. R.; et, al. (2011). "Laser ranging to the lost Lunokhod 1 reflector". Icarus. 211 (2): 1103–1108. arXiv:1009.5720. Bibcode:2011Icar..211.1103M. doi:10.1016/j.icarus.2010.11.010. ISSN 0019-1035. S2CID 11247676.
Stephenson, F.R.; Morrison, L.V. (1995). "Long-term fluctuations in the Earth's rotation: 700 BC to AD 1990" (PDF). Philosophical Transactions of the Royal Society of London, Series A. 351 (1695): 165–202. Bibcode:1995RSPTA.351..165S. doi:10.1098/rsta.1995.0028. S2CID 120718607.
Dickey, Jean O.; Bender, PL; Faller, JE; Newhall, XX; Ricklefs, RL; Ries, JG; Shelus, PJ; Veillet, C; et al. (1994). "Lunar Laser ranging: a continuing legacy of the Apollo program" (PDF). Science. 265 (5171): 482–90. Bibcode:1994Sci...265..482D. doi:10.1126/science.265.5171.482. PMID 17781305. S2CID 10157934.
Morrison, L. V.; Stephenson, F. R.; Hohenkerk, C. Y.; Zawilski, M. (2021). "Addendum 2020 to 'Measurement of the Earth's rotation: 720 BC to AD 2015'". Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences. 477 (2246): 20200776. Bibcode:2021RSPSA.47700776M. doi:10.1098/rspa.2020.0776. S2CID 231938488.
Schröder, K.-P.; Smith, R.C. (2008). "Distant future of the Sun and Earth revisited". Monthly Notices of the Royal Astronomical Society. 386 (1): 155–163. arXiv:0801.4031. Bibcode:2008MNRAS.386..155S. doi:10.1111/j.1365-2966.2008.13022.x. S2CID 10073988. See also Palmer, J. (2008). "Hope dims that Earth will survive Sun's death". New Scientist. Retrieved 2008-03-24.

sidc.be

proba2.sidc.be

J.G. Williams, D.H. Boggs and W. M.Folkner (2013). DE430 Lunar Orbit, Physical Librations, and Surface Coordinates p.10. "These derived values depend on a theory which is not accurate to the number of digits given." See also : Chapront, Chapront-Touzé, Francou (2002). A new determination of lunar orbital parameters, precession constant and tidal acceleration from LLR measurements

space.com

A reflector emplaced by Lunokhod 1 in 1970 was lost for many years. See Lunar Lost & Found: The Search for Old Spacecraft by Leonard David

springer.com

link.springer.com

Williams, James G.; Boggs, Dale H. (2016). "Secular tidal changes in lunar orbit and Earth rotation". Celestial Mechanics and Dynamical Astronomy. 126 (1): 89–129. Bibcode:2016CeMDA.126...89W. doi:10.1007/s10569-016-9702-3. ISSN 0923-2958. S2CID 124256137.

timeanddate.com

"What's a Leap Second". Timeanddate.com.

ucsd.edu

physics.ucsd.edu

Dickey, Jean O.; Bender, PL; Faller, JE; Newhall, XX; Ricklefs, RL; Ries, JG; Shelus, PJ; Veillet, C; et al. (1994). "Lunar Laser ranging: a continuing legacy of the Apollo program" (PDF). Science. 265 (5171): 482–90. Bibcode:1994Sci...265..482D. doi:10.1126/science.265.5171.482. PMID 17781305. S2CID 10157934.

universetoday.com

"When Will Earth Lock to the Moon?". Universe Today. 2016-04-12. Retrieved 2022-01-05.

web.archive.org

:(1) In McCarthy, D D; Hackman, C; Nelson, R A (2008). "The Physical Basis of the Leap Second" (PDF). Astronomical Journal. 136 (5): 1906–1908. Bibcode:2008AJ....136.1906M. doi:10.1088/0004-6256/136/5/1906. Archived from the original on September 22, 2017. it is stated (page 1908), that "the SI second is equivalent to an older measure of the second of UT1, which was too small to start with and further, as the duration of the UT1 second increases, the discrepancy widens." :(2) In the late 1950s, the cesium standard was used to measure both the current mean length of the second of mean solar time (UT2) (result: 9192631830 cycles) and also the second of ephemeris time (ET) (result:9192631770±20 cycles), see "Time Scales", by L. Essen, in Metrologia, vol.4 (1968), pp.161–165, on p.162. As is well known, the 9192631770 figure was chosen for the SI second. L Essen in the same 1968 article (p.162) stated that this "seemed reasonable in view of the variations in UT2".
"IERS – Observed values of UT1-TAI, 1962-1999". www.iers.org. Archived from the original on 2019-06-22. Retrieved 2019-03-14.
"LOD". Archived from the original on September 8, 2001.

worldcat.org

Williams, James G.; Boggs, Dale H. (2016). "Secular tidal changes in lunar orbit and Earth rotation". Celestial Mechanics and Dynamical Astronomy. 126 (1): 89–129. Bibcode:2016CeMDA.126...89W. doi:10.1007/s10569-016-9702-3. ISSN 0923-2958. S2CID 124256137.
Winter, Niels J. de; Goderis, Steven; Malderen, Stijn J. M. Van; Sinnesael, Matthias; Vansteenberge, Stef; Snoeck, Christophe; Belza, Joke; Vanhaecke, Frank; Claeys, Philippe (2020). "Subdaily-Scale Chemical Variability in a Torreites Sanchezi Rudist Shell: Implications for Rudist Paleobiology and the Cretaceous Day-Night Cycle". Paleoceanography and Paleoclimatology. 35 (2): e2019PA003723. doi:10.1029/2019PA003723. hdl:1854/LU-8685501. ISSN 2572-4525.
Murphy, T. W. Jr.; Adelberger, E. G.; Battat, J. B. R.; et, al. (2011). "Laser ranging to the lost Lunokhod 1 reflector". Icarus. 211 (2): 1103–1108. arXiv:1009.5720. Bibcode:2011Icar..211.1103M. doi:10.1016/j.icarus.2010.11.010. ISSN 0019-1035. S2CID 11247676.
Wiegert, P.; Galiazzo, M.A. (August 2017). "Meteorites from Phobos and Deimos at Earth?". Planetary and Space Science. 142: 48–52. arXiv:1705.02260. doi:10.1016/j.pss.2017.05.001. ISSN 0032-0633.