O'Malley-James, J. T.; Greaves, J. S.; Raven, J. A.; Cockell, C. S. (2013), "Swansong Biospheres: Refuges for life and novel microbial biospheres on terrestrial planets near the end of their habitable lifetimes", International Journal of Astrobiology, 12 (2): 99-112, arXiv:1210.5721, Bibcode:2013IJAsB..12...99O, doi:10.1017/S147355041200047X
Ribas, Ignasi (februar 2010), "The Sun and stars as the primary energy input in planetary atmospheres", Solar and Stellar Variability: Impact on Earth and Planets, Proceedings of the International Astronomical Union, IAU Symposium, vol. 264, s. 3-18, arXiv:0911.4872, Bibcode:2010IAUS..264....3R, doi:10.1017/S1743921309992298
O'Malley-James, J. T.; Greaves, J. S.; Raven, J. A.; Cockell, C. S. (2014), "Swansong Biospheres II: The final signs of life on terrestrial planets near the end of their habitable lifetimes", International Journal of Astrobiology, 13 (3): 229-243, arXiv:1310.4841, Bibcode:2014IJAsB..13..229O, doi:10.1017/S1473550413000426
Adams 2008, s. 33–44. Adams, Fred C. (2008), "Long term astrophysical processes", i Bostrom, Nick; Ćirković, Milan M. (red.), Global catastrophic risks, Oxford University Press, ISBN978-0-19-857050-9, arkiveret fra originalen 7. juli 2014, hentet 1. oktober 2019.
Stevenson 2002, s. 605. Stevenson, D. J. (2002), "Introduction to planetary interiors", i Hemley, Russell Julian; Chiarotti, G.; Bernasconi, M.; Ulivi, L. (red.), Fenomeni ad alte pressioni, IOS Press, ISBN978-1-58603-269-2, arkiveret fra originalen 30. juli 2020, hentet 1. oktober 2019.
Canup, Robin M.; Righter, Kevin (2000). Origin of the Earth and Moon. The University of Arizona space science series. Vol. 30. University of Arizona Press. s. 176-77. ISBN978-0-8165-2073-2. Arkiveret fra originalen 1. august 2020. Hentet 1. oktober 2019.
danske-natur.dk
'estivation' / 'aestivation' : '... Diapause i tørketiden i de tropiske regioner, er det modsatte af hibernation / overvintring'. − Fra OrdlisteArkiveret 6. maj 2021 hos Wayback Machine hos Danske-natur.dk
'Kataklysme' : en pludselig ødelæggende begivenhed. Dansk Fremmedordbog
'Orogenese' : bjergkædefoldning, se 'orogenese' i Den Store Danske af Asger Bertelsen – Til 'ekstruderinger', se Magmatiske bjergarter#Dagbjergarter – Artiklen 'Dagbjergarter' af Henning Sørensen i Den Store Danske har om 'ekstrusive bjergarter'
Til udtrykket 'radiogen varme' : (norsk) "Et annet eksempel er radiogen varme som produseres som følge av radioaktive prosesser i jordens indre". Fra Store norske leksikon, https://snl.no/radiogenArkiveret 9. august 2020 hos Wayback Machine(norsk) (Fri gjenbruk) – 'Radiogenic heating'(engelsk) – Se Isotopgeologi' i Den Store Danske af Svend Pedersen om bl.a. radioaktive isotopers henfald til radiogene datterisotoper
Til udtrykket 'radiogen varme' : (norsk) "Et annet eksempel er radiogen varme som produseres som følge av radioaktive prosesser i jordens indre". Fra Store norske leksikon, https://snl.no/radiogenArkiveret 9. august 2020 hos Wayback Machine(norsk) (Fri gjenbruk) – 'Radiogenic heating'(engelsk) – Se Isotopgeologi' i Den Store Danske af Svend Pedersen om bl.a. radioaktive isotopers henfald til radiogene datterisotoper
'Sputtering', forstøvning. Se 'Sputtering' af Peter Sigmund i Den Store Danske og 'Sputtering'(engelsk) : "In physics, sputtering is a phenomenon in which microscopic particles of a solid material are ejected from its surface, after the material is itself bombarded by energetic particles of a plasma or gas. ..." (Dansk resumé: "Inden for fysikken er 'sputtering' et fænomen, hvor mikroskopiske partikler af et fast materiale eroderes eller forstøves ud af dets overflade, efter at materialet er bombarderet af energirige partikler af plasma eller gas."
Det engelske forlæg har : "This will result in less attenuation of DNA-damaging UV, ... " – Se evt. 'attenuation' af Carsten Hede, Lotte Endsleff i Den Store Danske
Til udtrykket 'underskudt' : "... have bevæget sig ind under kappen, være subduceret eller 'underskudt' kappen. – Artiklen 'Hav - geologi' af Hans Christian Larsen i Den Store Danske har udtrykket 'underskydes ved subduktion'
Til udtrykkene 'violent relaxation' og 'relaxation time' (om tilbagevending til oprindelig tilstand) – Er der et etableret dansk udtryk, 'relaksation' ?
: en:Relaxation_(physics)#Relaxation_in_astronomy : "In astronomy, relaxation time relates to clusters of gravitationally interacting bodies, for instance, stars in a galaxy. The relaxation time is a measure of the time it takes for one object in the system (the "test star") to be significantly perturbed by other objects in the system (the "field stars"). It is most commonly defined as the time for the test star's velocity to change by of order itself. ..."
: 'Kinematics'Arkiveret 13. november 2019 hos Wayback Machine hos Astro.yale.edu – Blandt andet om "The Relaxation Puzzle: Relaxation: the process by which a physical system acquires equilibrium or Relaxation: returns to equilibium after a disturbance. Often, but not always, relaxation erases the system’s ‘knowledge’ of its initial conditions. ..."
: 'Relaksation' af Henrik Smith i Den Store Danske. Om tendensen at søge mod ligevægt
: "Relaxation in stellar systems "Arkiveret 1. oktober 2019 hos Wayback Machine fra icc.dur.ac.uk/ ('Institute for Computational Cosmology', Durham University) : "The relaxation time TE is a measure of how long the star remembers its initial energy. We will see that the more stars are there in the galaxy, the longer is the relaxation time. ..."
doi.org
Sackmann, I.-Juliana; Boothroyd, Arnold I.; Kraemer, Kathleen E. (1993), "Our Sun. III. Present and Future", The Astrophysical Journal, 418: 457-68, Bibcode:1993ApJ...418..457S, doi:10.1086/173407
Keith, David W. (november 2000), "Geoengineering the Environment: History and Prospect", Annual Review of Energy and the Environment, 25: 245-84, doi:10.1146/annurev.energy.25.1.245
Vitousek, Peter M.; Mooney, Harold A.; Lubchenco, Jane; Melillo, Jerry M. (25. juli 1997), "Human Domination of Earth's Ecosystems", Science, 277 (5325): 494-99, doi:10.1126/science.277.5325.494{{citation}}: Cite har en ukendt tom parameter: |1= (hjælp)
Haberl, Helmut; et al. (juli 2007), "Quantifying and mapping the human appropriation of net primary production in earth's terrestrial ecosystems", Proceedings of the National Academy of Sciences of the United States of America, 104 (31): 12942-47, Bibcode:2007PNAS..10412942H, doi:10.1073/pnas.0704243104, PMC1911196, PMID17616580
Cochelin, Anne-Sophie B.; Mysak, Lawrence A.; Wang, Zhaomin (december 2006), "Simulation of long-term future climate changes with the green McGill paleoclimate model: the next glacial inception", Climatic Change, 79 (3-4): 381, doi:10.1007/s10584-006-9099-1
O'Malley-James, J. T.; Greaves, J. S.; Raven, J. A.; Cockell, C. S. (2013), "Swansong Biospheres: Refuges for life and novel microbial biospheres on terrestrial planets near the end of their habitable lifetimes", International Journal of Astrobiology, 12 (2): 99-112, arXiv:1210.5721, Bibcode:2013IJAsB..12...99O, doi:10.1017/S147355041200047X
Novacek, M. J.; Cleland, E. E. (maj 2001), "The current biodiversity extinction event: scenarios for mitigation and recovery", Proceedings of the National Academy of Sciences of the United States of America, 98 (10): 5466-70, Bibcode:2001PNAS...98.5466N, doi:10.1073/pnas.091093698, PMC33235, PMID11344295
Rampino, Michael R.; Haggerty, Bruce M. (februar 1996), "The "Shiva Hypothesis": Impacts, Mass Extinctions, and the Galaxy", Earth, Moon, and Planets, 72 (1-3): 441-60, Bibcode:1996EM&P...72..441R, doi:10.1007/BF00117548
Tammann, G. A.; et al. (juni 1994), "The Galactic supernova rate", The Astrophysical Journal Supplement Series, 92 (2): 487-93, Bibcode:1994ApJS...92..487T, doi:10.1086/192002
Laskar, J.; Joutel, F.; Robutel, P. (18. februar 1993), "Stabilization of the Earth's obliquity by the Moon", Nature, 361 (6413): 615-17, Bibcode:1993Natur.361..615L, doi:10.1038/361615a0
Donnadieu, Yannick; et al. (2002), "Is high obliquity a plausible cause for Neoproterozoic glaciations?", Geophysical Research Letters, 29 (23): 42–, Bibcode:2002GeoRL..29.2127D, doi:10.1029/2002GL015902
Lindsay, J. F.; Brasier, M. D. (2002), "Did global tectonics drive early biosphere evolution? Carbon isotope record from 2.6 to 1.9 Ga carbonates of Western Australian basins", Precambrian Research, 114 (1): 1-34, Bibcode:2002PreR..114....1L, doi:10.1016/S0301-9268(01)00219-4
Murphy, J. Brendan; Nance, R. Damian; Cawood, Peter A. (juni 2009), "Contrasting modes of supercontinent formation and the conundrum of Pangea", Gondwana Research, 15 (3-4): 408-20, Bibcode:2009GondR..15..408M, doi:10.1016/j.gr.2008.09.005
Trubitsyn, Valeriy; Kabana, Mikhail K.; Rothachera, Marcus (december 2008), "Mechanical and thermal effects of floating continents on the global mantle convection", Physics of the Earth and Planetary Interiors, 171 (1-4): 313-22, Bibcode:2008PEPI..171..313T, doi:10.1016/j.pepi.2008.03.011
Stacey, F. D.; Stacey, C. H. B. (januar 1999), "Gravitational energy of core evolution: implications for thermal history and geodynamo power", Physics of the Earth and Planetary Interiors, 110 (1-2): 83-93, Bibcode:1999PEPI..110...83S, doi:10.1016/S0031-9201(98)00141-1
van Thienen, P.; et al. (marts 2007), "Water, Life, and Planetary Geodynamical Evolution", Space Science Reviews, 129 (1-3): 167-203, Bibcode:2007SSRv..129..167V, doi:10.1007/s11214-007-9149-7 In particular, see page 24.
Ribas, Ignasi (februar 2010), "The Sun and stars as the primary energy input in planetary atmospheres", Solar and Stellar Variability: Impact on Earth and Planets, Proceedings of the International Astronomical Union, IAU Symposium, vol. 264, s. 3-18, arXiv:0911.4872, Bibcode:2010IAUS..264....3R, doi:10.1017/S1743921309992298
O'Malley-James, J. T.; Greaves, J. S.; Raven, J. A.; Cockell, C. S. (2014), "Swansong Biospheres II: The final signs of life on terrestrial planets near the end of their habitable lifetimes", International Journal of Astrobiology, 13 (3): 229-243, arXiv:1310.4841, Bibcode:2014IJAsB..13..229O, doi:10.1017/S1473550413000426
Lenton, Timothy M.; von Bloh, Werner (maj 2001), "Biotic feedback extends the life span of the biosphere", Geophysical Research Letters, 28 (9): 1715-18, Bibcode:2001GeoRL..28.1715L, doi:10.1029/2000GL012198
Bond, W. J.; Woodward, F. I.; Midgley, G. F. (2005), "The global distribution of ecosystems in a world without fire", New Phytologist, 165 (2): 525-38, doi:10.1111/j.1469-8137.2004.01252.x, PMID15720663
Li, King-Fai; Pahlevan, Kaveh; Kirschvink, Joseph L.; Yung, Yuk L. (16. juni 2009), "Atmospheric pressure as a natural climate regulator for a terrestrial planet with a biosphere", Proceedings of the National Academy of Sciences of the United States of America, 106 (24): 9576-79, Bibcode:2009PNAS..106.9576L, doi:10.1073/pnas.0809436106, PMC2701016, PMID19487662
Til udtrykkene 'violent relaxation' og 'relaxation time' (om tilbagevending til oprindelig tilstand) – Er der et etableret dansk udtryk, 'relaksation' ?
: en:Relaxation_(physics)#Relaxation_in_astronomy : "In astronomy, relaxation time relates to clusters of gravitationally interacting bodies, for instance, stars in a galaxy. The relaxation time is a measure of the time it takes for one object in the system (the "test star") to be significantly perturbed by other objects in the system (the "field stars"). It is most commonly defined as the time for the test star's velocity to change by of order itself. ..."
: 'Kinematics'Arkiveret 13. november 2019 hos Wayback Machine hos Astro.yale.edu – Blandt andet om "The Relaxation Puzzle: Relaxation: the process by which a physical system acquires equilibrium or Relaxation: returns to equilibium after a disturbance. Often, but not always, relaxation erases the system’s ‘knowledge’ of its initial conditions. ..."
: 'Relaksation' af Henrik Smith i Den Store Danske. Om tendensen at søge mod ligevægt
: "Relaxation in stellar systems "Arkiveret 1. oktober 2019 hos Wayback Machine fra icc.dur.ac.uk/ ('Institute for Computational Cosmology', Durham University) : "The relaxation time TE is a measure of how long the star remembers its initial energy. We will see that the more stars are there in the galaxy, the longer is the relaxation time. ..."
Sackmann, I.-Juliana; Boothroyd, Arnold I.; Kraemer, Kathleen E. (1993), "Our Sun. III. Present and Future", The Astrophysical Journal, 418: 457-68, Bibcode:1993ApJ...418..457S, doi:10.1086/173407
Haberl, Helmut; et al. (juli 2007), "Quantifying and mapping the human appropriation of net primary production in earth's terrestrial ecosystems", Proceedings of the National Academy of Sciences of the United States of America, 104 (31): 12942-47, Bibcode:2007PNAS..10412942H, doi:10.1073/pnas.0704243104, PMC1911196, PMID17616580
Neron de Surgy, O.; Laskar, J. (februar 1997), "On the long term evolution of the spin of the Earth", Astronomy and Astrophysics, 318: 975-89, Bibcode:1997A&A...318..975N
O'Malley-James, J. T.; Greaves, J. S.; Raven, J. A.; Cockell, C. S. (2013), "Swansong Biospheres: Refuges for life and novel microbial biospheres on terrestrial planets near the end of their habitable lifetimes", International Journal of Astrobiology, 12 (2): 99-112, arXiv:1210.5721, Bibcode:2013IJAsB..12...99O, doi:10.1017/S147355041200047X
Novacek, M. J.; Cleland, E. E. (maj 2001), "The current biodiversity extinction event: scenarios for mitigation and recovery", Proceedings of the National Academy of Sciences of the United States of America, 98 (10): 5466-70, Bibcode:2001PNAS...98.5466N, doi:10.1073/pnas.091093698, PMC33235, PMID11344295
Matthews, R. A. J. (marts 1994). "The Close Approach of Stars in the Solar Neighborhood". Quarterly Journal of the Royal Astronomical Society. 35 (1): 1-9. Bibcode:1994QJRAS..35....1M.
Rampino, Michael R.; Haggerty, Bruce M. (februar 1996), "The "Shiva Hypothesis": Impacts, Mass Extinctions, and the Galaxy", Earth, Moon, and Planets, 72 (1-3): 441-60, Bibcode:1996EM&P...72..441R, doi:10.1007/BF00117548
Tammann, G. A.; et al. (juni 1994), "The Galactic supernova rate", The Astrophysical Journal Supplement Series, 92 (2): 487-93, Bibcode:1994ApJS...92..487T, doi:10.1086/192002
Laskar, J.; Joutel, F.; Robutel, P. (18. februar 1993), "Stabilization of the Earth's obliquity by the Moon", Nature, 361 (6413): 615-17, Bibcode:1993Natur.361..615L, doi:10.1038/361615a0
Donnadieu, Yannick; et al. (2002), "Is high obliquity a plausible cause for Neoproterozoic glaciations?", Geophysical Research Letters, 29 (23): 42–, Bibcode:2002GeoRL..29.2127D, doi:10.1029/2002GL015902
Lindsay, J. F.; Brasier, M. D. (2002), "Did global tectonics drive early biosphere evolution? Carbon isotope record from 2.6 to 1.9 Ga carbonates of Western Australian basins", Precambrian Research, 114 (1): 1-34, Bibcode:2002PreR..114....1L, doi:10.1016/S0301-9268(01)00219-4
Murphy, J. Brendan; Nance, R. Damian; Cawood, Peter A. (juni 2009), "Contrasting modes of supercontinent formation and the conundrum of Pangea", Gondwana Research, 15 (3-4): 408-20, Bibcode:2009GondR..15..408M, doi:10.1016/j.gr.2008.09.005
Trubitsyn, Valeriy; Kabana, Mikhail K.; Rothachera, Marcus (december 2008), "Mechanical and thermal effects of floating continents on the global mantle convection", Physics of the Earth and Planetary Interiors, 171 (1-4): 313-22, Bibcode:2008PEPI..171..313T, doi:10.1016/j.pepi.2008.03.011
Silver, P. G.; Behn, M. D. (december 2006), "Intermittent Plate Tectonics", American Geophysical Union, Fall Meeting 2006, Abstract #U13B-08, 2006: U13B-08, Bibcode:2006AGUFM.U13B..08S
Stacey, F. D.; Stacey, C. H. B. (januar 1999), "Gravitational energy of core evolution: implications for thermal history and geodynamo power", Physics of the Earth and Planetary Interiors, 110 (1-2): 83-93, Bibcode:1999PEPI..110...83S, doi:10.1016/S0031-9201(98)00141-1
van Thienen, P.; et al. (marts 2007), "Water, Life, and Planetary Geodynamical Evolution", Space Science Reviews, 129 (1-3): 167-203, Bibcode:2007SSRv..129..167V, doi:10.1007/s11214-007-9149-7 In particular, see page 24.
Ribas, Ignasi (februar 2010), "The Sun and stars as the primary energy input in planetary atmospheres", Solar and Stellar Variability: Impact on Earth and Planets, Proceedings of the International Astronomical Union, IAU Symposium, vol. 264, s. 3-18, arXiv:0911.4872, Bibcode:2010IAUS..264....3R, doi:10.1017/S1743921309992298
O'Malley-James, J. T.; Greaves, J. S.; Raven, J. A.; Cockell, C. S. (2014), "Swansong Biospheres II: The final signs of life on terrestrial planets near the end of their habitable lifetimes", International Journal of Astrobiology, 13 (3): 229-243, arXiv:1310.4841, Bibcode:2014IJAsB..13..229O, doi:10.1017/S1473550413000426
Lenton, Timothy M.; von Bloh, Werner (maj 2001), "Biotic feedback extends the life span of the biosphere", Geophysical Research Letters, 28 (9): 1715-18, Bibcode:2001GeoRL..28.1715L, doi:10.1029/2000GL012198
Guinan, E. F.; Ribas, I. (2002), "Our Changing Sun: The Role of Solar Nuclear Evolution and Magnetic Activity on Earth's Atmosphere and Climate", i Montesinos, Benjamin; Gimenez, Alvaro; Guinan, Edward F. (red.), ASP Conference Proceedings, The Evolving Sun and its Influence on Planetary Environments, vol. 269, Astronomical Society of the Pacific, s. 85-106, Bibcode:2002ASPC..269...85G
Li, King-Fai; Pahlevan, Kaveh; Kirschvink, Joseph L.; Yung, Yuk L. (16. juni 2009), "Atmospheric pressure as a natural climate regulator for a terrestrial planet with a biosphere", Proceedings of the National Academy of Sciences of the United States of America, 106 (24): 9576-79, Bibcode:2009PNAS..106.9576L, doi:10.1073/pnas.0809436106, PMC2701016, PMID19487662
Kargel, J. S.; et al. (maj 2003), "Volatile Cycles and Glaciation: Earth and Mars (Now and Near a Red Giant Sun), and Moons of Hot Jupiters", American Astronomical Society, DPS Meeting# 35, #18.08; Bulletin of the American Astronomical Society, 35: 945, Bibcode:2003DPS....35.1808K
Goldstein, J. (maj 1987), "The fate of the earth in the red giant envelope of the sun", Astronomy and Astrophysics, 178 (1-2): 283-85, Bibcode:1987A&A...178..283G
Haberl, Helmut; et al. (juli 2007), "Quantifying and mapping the human appropriation of net primary production in earth's terrestrial ecosystems", Proceedings of the National Academy of Sciences of the United States of America, 104 (31): 12942-47, Bibcode:2007PNAS..10412942H, doi:10.1073/pnas.0704243104, PMC1911196, PMID17616580
Novacek, M. J.; Cleland, E. E. (maj 2001), "The current biodiversity extinction event: scenarios for mitigation and recovery", Proceedings of the National Academy of Sciences of the United States of America, 98 (10): 5466-70, Bibcode:2001PNAS...98.5466N, doi:10.1073/pnas.091093698, PMC33235, PMID11344295
Bond, W. J.; Woodward, F. I.; Midgley, G. F. (2005), "The global distribution of ecosystems in a world without fire", New Phytologist, 165 (2): 525-38, doi:10.1111/j.1469-8137.2004.01252.x, PMID15720663
Li, King-Fai; Pahlevan, Kaveh; Kirschvink, Joseph L.; Yung, Yuk L. (16. juni 2009), "Atmospheric pressure as a natural climate regulator for a terrestrial planet with a biosphere", Proceedings of the National Academy of Sciences of the United States of America, 106 (24): 9576-79, Bibcode:2009PNAS..106.9576L, doi:10.1073/pnas.0809436106, PMC2701016, PMID19487662
ncbi.nlm.nih.gov
Haberl, Helmut; et al. (juli 2007), "Quantifying and mapping the human appropriation of net primary production in earth's terrestrial ecosystems", Proceedings of the National Academy of Sciences of the United States of America, 104 (31): 12942-47, Bibcode:2007PNAS..10412942H, doi:10.1073/pnas.0704243104, PMC1911196, PMID17616580
Novacek, M. J.; Cleland, E. E. (maj 2001), "The current biodiversity extinction event: scenarios for mitigation and recovery", Proceedings of the National Academy of Sciences of the United States of America, 98 (10): 5466-70, Bibcode:2001PNAS...98.5466N, doi:10.1073/pnas.091093698, PMC33235, PMID11344295
Li, King-Fai; Pahlevan, Kaveh; Kirschvink, Joseph L.; Yung, Yuk L. (16. juni 2009), "Atmospheric pressure as a natural climate regulator for a terrestrial planet with a biosphere", Proceedings of the National Academy of Sciences of the United States of America, 106 (24): 9576-79, Bibcode:2009PNAS..106.9576L, doi:10.1073/pnas.0809436106, PMC2701016, PMID19487662
nyc.gov
www1.nyc.gov
Til udtrykket inland flooding : "What is inland flooding?"Arkiveret 8. august 2019 hos Wayback Machine fra www1.nyc.gov : "...inland flooding, also known as “urban flooding” or “flash flooding”, can be caused by intense, short-term rain or by moderate rainfall over several days that can overwhelm existing drainage infrastructure. ..."
(Dansk resumé : "... 'indenlandsk oversvømmelse' (bymæssig oversvømmelse eller styrtregn/skypumpe' eller 'flash oversvømmelse') kan være forårsaget af intens, kortvarig regn eller af moderat regn i flere dage, som viser sig at være mere end den eksisterende dræningsinfrastruktur kan klare. ...") − Se evt. også Flash flood(engelsk)
Williams, Caroline; Nield, Ted (20. oktober 2007), "Pangaea, the comeback", New Scientist, arkiveret fra originalen 13. april 2008, hentet 2009-08-28
snl.no
Til udtrykket 'radiogen varme' : (norsk) "Et annet eksempel er radiogen varme som produseres som følge av radioaktive prosesser i jordens indre". Fra Store norske leksikon, https://snl.no/radiogenArkiveret 9. august 2020 hos Wayback Machine(norsk) (Fri gjenbruk) – 'Radiogenic heating'(engelsk) – Se Isotopgeologi' i Den Store Danske af Svend Pedersen om bl.a. radioaktive isotopers henfald til radiogene datterisotoper
Til udtrykket 'radiogen varme' : (norsk) "Et annet eksempel er radiogen varme som produseres som følge av radioaktive prosesser i jordens indre". Fra Store norske leksikon, https://snl.no/radiogenArkiveret 9. august 2020 hos Wayback Machine(norsk) (Fri gjenbruk) – 'Radiogenic heating'(engelsk) – Se Isotopgeologi' i Den Store Danske af Svend Pedersen om bl.a. radioaktive isotopers henfald til radiogene datterisotoper
Til udtrykket 'radiogen varme' : (norsk) "Et annet eksempel er radiogen varme som produseres som følge av radioaktive prosesser i jordens indre". Fra Store norske leksikon, https://snl.no/radiogenArkiveret 9. august 2020 hos Wayback Machine(norsk) (Fri gjenbruk) – 'Radiogenic heating'(engelsk) – Se Isotopgeologi' i Den Store Danske af Svend Pedersen om bl.a. radioaktive isotopers henfald til radiogene datterisotoper
Til udtrykket 'radiogen varme' : (norsk) "Et annet eksempel er radiogen varme som produseres som følge av radioaktive prosesser i jordens indre". Fra Store norske leksikon, https://snl.no/radiogenArkiveret 9. august 2020 hos Wayback Machine(norsk) (Fri gjenbruk) – 'Radiogenic heating'(engelsk) – Se Isotopgeologi' i Den Store Danske af Svend Pedersen om bl.a. radioaktive isotopers henfald til radiogene datterisotoper
Til udtrykket inland flooding : "What is inland flooding?"Arkiveret 8. august 2019 hos Wayback Machine fra www1.nyc.gov : "...inland flooding, also known as “urban flooding” or “flash flooding”, can be caused by intense, short-term rain or by moderate rainfall over several days that can overwhelm existing drainage infrastructure. ..."
(Dansk resumé : "... 'indenlandsk oversvømmelse' (bymæssig oversvømmelse eller styrtregn/skypumpe' eller 'flash oversvømmelse') kan være forårsaget af intens, kortvarig regn eller af moderat regn i flere dage, som viser sig at være mere end den eksisterende dræningsinfrastruktur kan klare. ...") − Se evt. også Flash flood(engelsk)
'estivation' / 'aestivation' : '... Diapause i tørketiden i de tropiske regioner, er det modsatte af hibernation / overvintring'. − Fra OrdlisteArkiveret 6. maj 2021 hos Wayback Machine hos Danske-natur.dk
Til udtrykkene 'violent relaxation' og 'relaxation time' (om tilbagevending til oprindelig tilstand) – Er der et etableret dansk udtryk, 'relaksation' ?
: en:Relaxation_(physics)#Relaxation_in_astronomy : "In astronomy, relaxation time relates to clusters of gravitationally interacting bodies, for instance, stars in a galaxy. The relaxation time is a measure of the time it takes for one object in the system (the "test star") to be significantly perturbed by other objects in the system (the "field stars"). It is most commonly defined as the time for the test star's velocity to change by of order itself. ..."
: 'Kinematics'Arkiveret 13. november 2019 hos Wayback Machine hos Astro.yale.edu – Blandt andet om "The Relaxation Puzzle: Relaxation: the process by which a physical system acquires equilibrium or Relaxation: returns to equilibium after a disturbance. Often, but not always, relaxation erases the system’s ‘knowledge’ of its initial conditions. ..."
: 'Relaksation' af Henrik Smith i Den Store Danske. Om tendensen at søge mod ligevægt
: "Relaxation in stellar systems "Arkiveret 1. oktober 2019 hos Wayback Machine fra icc.dur.ac.uk/ ('Institute for Computational Cosmology', Durham University) : "The relaxation time TE is a measure of how long the star remembers its initial energy. We will see that the more stars are there in the galaxy, the longer is the relaxation time. ..."
Adams 2008, s. 33–44. Adams, Fred C. (2008), "Long term astrophysical processes", i Bostrom, Nick; Ćirković, Milan M. (red.), Global catastrophic risks, Oxford University Press, ISBN978-0-19-857050-9, arkiveret fra originalen 7. juli 2014, hentet 1. oktober 2019.
Stevenson 2002, s. 605. Stevenson, D. J. (2002), "Introduction to planetary interiors", i Hemley, Russell Julian; Chiarotti, G.; Bernasconi, M.; Ulivi, L. (red.), Fenomeni ad alte pressioni, IOS Press, ISBN978-1-58603-269-2, arkiveret fra originalen 30. juli 2020, hentet 1. oktober 2019.
Canup, Robin M.; Righter, Kevin (2000). Origin of the Earth and Moon. The University of Arizona space science series. Vol. 30. University of Arizona Press. s. 176-77. ISBN978-0-8165-2073-2. Arkiveret fra originalen 1. august 2020. Hentet 1. oktober 2019.
Til udtrykket 'radiogen varme' : (norsk) "Et annet eksempel er radiogen varme som produseres som følge av radioaktive prosesser i jordens indre". Fra Store norske leksikon, https://snl.no/radiogenArkiveret 9. august 2020 hos Wayback Machine(norsk) (Fri gjenbruk) – 'Radiogenic heating'(engelsk) – Se Isotopgeologi' i Den Store Danske af Svend Pedersen om bl.a. radioaktive isotopers henfald til radiogene datterisotoper
Til udtrykket 'radiogen varme' : (norsk) "Et annet eksempel er radiogen varme som produseres som følge av radioaktive prosesser i jordens indre". Fra Store norske leksikon, https://snl.no/radiogenArkiveret 9. august 2020 hos Wayback Machine(norsk) (Fri gjenbruk) – 'Radiogenic heating'(engelsk) – Se Isotopgeologi' i Den Store Danske af Svend Pedersen om bl.a. radioaktive isotopers henfald til radiogene datterisotoper
Til udtrykket inland flooding : "What is inland flooding?"Arkiveret 8. august 2019 hos Wayback Machine fra www1.nyc.gov : "...inland flooding, also known as “urban flooding” or “flash flooding”, can be caused by intense, short-term rain or by moderate rainfall over several days that can overwhelm existing drainage infrastructure. ..."
(Dansk resumé : "... 'indenlandsk oversvømmelse' (bymæssig oversvømmelse eller styrtregn/skypumpe' eller 'flash oversvømmelse') kan være forårsaget af intens, kortvarig regn eller af moderat regn i flere dage, som viser sig at være mere end den eksisterende dræningsinfrastruktur kan klare. ...") − Se evt. også Flash flood(engelsk)
'Sputtering', forstøvning. Se 'Sputtering' af Peter Sigmund i Den Store Danske og 'Sputtering'(engelsk) : "In physics, sputtering is a phenomenon in which microscopic particles of a solid material are ejected from its surface, after the material is itself bombarded by energetic particles of a plasma or gas. ..." (Dansk resumé: "Inden for fysikken er 'sputtering' et fænomen, hvor mikroskopiske partikler af et fast materiale eroderes eller forstøves ud af dets overflade, efter at materialet er bombarderet af energirige partikler af plasma eller gas."
'carbon sequestration': "Carbon sequestration is the process involved in carbon capture and the long-term storage of atmospheric carbon dioxide or other forms of carbon to mitigate or defer global warming. It has been proposed as a way to slow the atmospheric and marine accumulation of greenhouse gases, which are released by burning fossil fuels ...." (Dansk resumé: 'Kulstofbinding er processer der er involveret i kulstoffangst og langsigtet opbevaring af atmosfærisk kuldioxid eller andre former for kulstof for at mindske eller udskyde den globale opvarmning. Det er blevet foreslået som en måde at bremse den atmosfæriske og marine ophobning af drivhusgasser, der frigøres ved forbrænding af fossile brændstoffer. ...')
Det engelske forlæg har : "This will result in less attenuation of DNA-damaging UV, ... " – Se evt. 'attenuation' af Carsten Hede, Lotte Endsleff i Den Store Danske
selenocentrisk ('selenic', vedr. Månen) – Denne passage om det selenocentriske kredsløb i det engelske forlæg: "Thereafter, the tidal action of the Sun will extract angular momentum from the system, causing the lunar orbit to decay and the Earth's spin to accelerate ..." – Hvor 'lunar orbit' er banen for et objekt (fx en satellit) omkring månen, jf. Lunar orbit (noget kredser om Månen) vs. Orbit of the Moon (Månen kredser om Jorden) (engelsk)
Til udtrykkene 'violent relaxation' og 'relaxation time' (om tilbagevending til oprindelig tilstand) – Er der et etableret dansk udtryk, 'relaksation' ?
: en:Relaxation_(physics)#Relaxation_in_astronomy : "In astronomy, relaxation time relates to clusters of gravitationally interacting bodies, for instance, stars in a galaxy. The relaxation time is a measure of the time it takes for one object in the system (the "test star") to be significantly perturbed by other objects in the system (the "field stars"). It is most commonly defined as the time for the test star's velocity to change by of order itself. ..."
: 'Kinematics'Arkiveret 13. november 2019 hos Wayback Machine hos Astro.yale.edu – Blandt andet om "The Relaxation Puzzle: Relaxation: the process by which a physical system acquires equilibrium or Relaxation: returns to equilibium after a disturbance. Often, but not always, relaxation erases the system’s ‘knowledge’ of its initial conditions. ..."
: 'Relaksation' af Henrik Smith i Den Store Danske. Om tendensen at søge mod ligevægt
: "Relaxation in stellar systems "Arkiveret 1. oktober 2019 hos Wayback Machine fra icc.dur.ac.uk/ ('Institute for Computational Cosmology', Durham University) : "The relaxation time TE is a measure of how long the star remembers its initial energy. We will see that the more stars are there in the galaxy, the longer is the relaxation time. ..."
de.wikipedia.org
Til udtrykkene 'violent relaxation' og 'relaxation time' (om tilbagevending til oprindelig tilstand) – Er der et etableret dansk udtryk, 'relaksation' ?
: en:Relaxation_(physics)#Relaxation_in_astronomy : "In astronomy, relaxation time relates to clusters of gravitationally interacting bodies, for instance, stars in a galaxy. The relaxation time is a measure of the time it takes for one object in the system (the "test star") to be significantly perturbed by other objects in the system (the "field stars"). It is most commonly defined as the time for the test star's velocity to change by of order itself. ..."
: 'Kinematics'Arkiveret 13. november 2019 hos Wayback Machine hos Astro.yale.edu – Blandt andet om "The Relaxation Puzzle: Relaxation: the process by which a physical system acquires equilibrium or Relaxation: returns to equilibium after a disturbance. Often, but not always, relaxation erases the system’s ‘knowledge’ of its initial conditions. ..."
: 'Relaksation' af Henrik Smith i Den Store Danske. Om tendensen at søge mod ligevægt
: "Relaxation in stellar systems "Arkiveret 1. oktober 2019 hos Wayback Machine fra icc.dur.ac.uk/ ('Institute for Computational Cosmology', Durham University) : "The relaxation time TE is a measure of how long the star remembers its initial energy. We will see that the more stars are there in the galaxy, the longer is the relaxation time. ..."
Til udtrykkene 'violent relaxation' og 'relaxation time' (om tilbagevending til oprindelig tilstand) – Er der et etableret dansk udtryk, 'relaksation' ?
: en:Relaxation_(physics)#Relaxation_in_astronomy : "In astronomy, relaxation time relates to clusters of gravitationally interacting bodies, for instance, stars in a galaxy. The relaxation time is a measure of the time it takes for one object in the system (the "test star") to be significantly perturbed by other objects in the system (the "field stars"). It is most commonly defined as the time for the test star's velocity to change by of order itself. ..."
: 'Kinematics'Arkiveret 13. november 2019 hos Wayback Machine hos Astro.yale.edu – Blandt andet om "The Relaxation Puzzle: Relaxation: the process by which a physical system acquires equilibrium or Relaxation: returns to equilibium after a disturbance. Often, but not always, relaxation erases the system’s ‘knowledge’ of its initial conditions. ..."
: 'Relaksation' af Henrik Smith i Den Store Danske. Om tendensen at søge mod ligevægt
: "Relaxation in stellar systems "Arkiveret 1. oktober 2019 hos Wayback Machine fra icc.dur.ac.uk/ ('Institute for Computational Cosmology', Durham University) : "The relaxation time TE is a measure of how long the star remembers its initial energy. We will see that the more stars are there in the galaxy, the longer is the relaxation time. ..."
