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1

S, Lindzen Richard, ed. Atmospheric tides: Thermal and gravitational. New York: Gordon and Breach, 1987.

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2

John, Stanford. Oscillations in D-region absorption at periods of one to two months. [Washington, D.C: National Aeronautics and Space Administration, 1989.

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3

John, Stanford. Oscillations in D-region absorption at periods of one to two months. [Washington, D.C: National Aeronautics and Space Administration, 1989.

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4

Volland, Hans. Atmospheric tidal and planetary waves. Dordrecht: Kluwer Academic Publishers, 1988.

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5

Kähler, Malte. Thermische Gezeiten in einem dreidimensionalen Zirkulationsmodell. Berlin: D. Reimer, 1988.

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6

Kelder, H. On waves in the upper atmosphere. De Bilt: Koninklijk Nederlands Meteorologisch Instituut, 1986.

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7

Lambrecht, Michael. Numerische Untersuchungen zur tropischen 30-60 tägigen Oszillation mit einem konzeptionellen Modell. Bonn: Dümmler, 1996.

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8

Assembly, COSPAR Scientific. Atmospheric tidal dynamics and E- and D-region physics: Proceedings of the CO.1 and C4.1 Symposia of COSPAR Scientific Commission C which was held during the thirty-first COSPAR Scientific Assembly, Birmingham, U.K., 14-21 July 1996. Kidlington, Oxford: Published for the Committee on Space Research [by] Pergamon, 1998.

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9

Williams, Christopher Reed. Analysis of deep convective clouds and their association with non-migrating atmospheric diurnal tides in the tropical troposphere. Boulder, Colo: U.S. Dept. of Commerce, National Oceanic and Atmospheric Administration, Environmental Research Laboratories, Aeronomy Laboratory, 1994.

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10

United States. National Aeronautics and Space Administration., ed. An a priori model for the reduction of nutation observations: KSV₁₉₉₄ ̣₃ nutation series. [Washington, D.C: National Aeronautics and Space Administration, 1995.

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11

Canada, Atomic Energy of. Atmospheric Dispersion From A Point Source Over Very Long Times. S.l: s.n, 1985.

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12

Foden, Giles. Turbulence: A novel of the atmosphere. London: Faber and Faber, 2009.

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13

Christianson, Gale E. Greenhouse: The 200-year story of global warming. London: Constable, 1999.

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14

Christianson, Gale E. Greenhouse: The 200-year story of global warming. Vancouver: Greystone Books, 2000.

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15

United States. National Oceanic and Atmospheric Administration. Reversing the tide: Restoring the nation's coastal and marine natural resources. Washington, D.C.?]: U.S. Department of Commerce, National Oceanic and Atmospheric Administration, 1995.

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16

1930-, Noye John, National Tidal Facility (Australia), and Ocean and Atmosphere Pacific (1995 : Adelaide, S. Aust.), eds. Modelling coastal sea processes. Singapore: World Scientific, 1999.

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17

Fleming, James Rodger. The Callendar effect: The life and times of Guy Stewart Callendar (1898-1964), the scientist who established the carbon dioxide theory of climate change. Boston, Mass: American Meteorological Society, 2007.

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18

MacConochie, Ian O. Design, fabrication, and tests of a metallic shell tile thermal protection system for space transportation. Hampton, Va: National Aeronautics and Space Administration, Langley Research Center, 1989.

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19

Albert, Gore. Our choice: A plan to solve the climate crisis. New York, NY: Rodale, 2009.

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20

Albert, Gore. Our choice: A plan to solve the climate crisis. Emmaus, PA: Rodale, 2009.

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21

Albert, Gore. Our choice: A plan to solve the climate crisis. New York, NY: Rodale, 2009.

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22

United States. Congress. Senate. Committee on Commerce, Science, and Transportation. Subcommittee on Oceans, Atmosphere, Fisheries, and Coast Guard. Stemming the tide: The U.S. response to tsunami generated marine debris : hearing before the Subcommittee on Oceans, Atmosphere, Fisheries, and Coast Guard of the Committee on Commerce, Science, and Transportation, United States Senate, One Hundred Twelfth Congress, second session, May 17, 2012. Washington: U.S. Government Printing Office, 2013.

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23

Chapman, S., and R. S. Lindzen. Atmospheric Tides: Thermal and Gravitational. Springer, 2012.

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24

Chapman, S., and R. S. Lindzen. Atmospheric Tides: Thermal and Gravitational. Springer, 2011.

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25

Chapman, S., and R. S. Lindzen. Atmospheric Tides: Thermal and Gravitational. Springer, 2011.

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26

Defant, Albert. Ebb And Flow The Tides Of Earth Air And Water. Hassell Street Press, 2021.

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27

Volland, Hans. Atmospheric Tidal and Planetary Waves. Springer, 2011.

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28

Volland, Hans. Atmospheric Tidal and Planetary Waves. Springer, 2012.

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29

(Editor), G. G. Shepherd, and W. Singer (Editor), eds. Atmospheric Tidal Dynamics and E- and D-Region Physics (Advances in Space Research , Vol 21 No 6). Pergamon Press Inc, 1998.

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30

(Editor), G. G. Shepherd, and W. Singer (Editor), eds. Atmospheric Tidal Dynamics and E- and D-Region Physics (Advances in Space Research , Vol 21 No 6). Pergamon Press Inc, 1998.

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31

Galchen, Rivka. Atmospheric Disturbances. HarperCollins Publishers Limited, 2008.

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32

Galchen, Rivka, and Malcolm Hillgartner. Atmospheric Disturbances. Blackstone Audio, Inc., 2008.

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33

DeFelipe, Javier. The Scientific Atmosphere in Cajal’s Times. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780190842833.003.0002.

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34

Peponi, Anastasia-Erasmia. Lyric Atmospheres. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198794462.003.0008.

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Annotation:
Lyric genres have often been associated with a particular type of aesthetic experience in which semantic concreteness may give way to more diffused modes of perception and feeling, creating vague yet all-pervasive moods or atmospheres. This phenomenon has been largely attributed to lyric poetry’s heightened musicality, which in antiquity was further enhanced by actual singing and instrumental accompaniment. This chapter contends that in some of Plato’s dialogues interesting versions of this broader issue are either openly addressed or treated as an implicit struggle that results sometimes in negative, while at other times in remarkably creative, responses. In either case, Plato’s awareness and handling of this issue illuminates neglected but exciting aspects of his encounter with mousikē, mimesis, and the verbal arts.
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35

Galchen, Rivka. Atmospheric Disturbances: A Novel. Picador, 2009.

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36

Firor, John. Changing atmosphere: Global challenge. Yale University Press, 1992.

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37

Lange, Anne. A Vision in Times of Need. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198754824.003.0010.

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This chapter outlines Estonian translations of Milton’s works and their socio-cultural context in order to reveal the translators as writers keenly aware of the value of their translations as weapons of communication trained on their environment. All three translations—the prose translation of Paradise Lost and Paradise Regained in 1895, the verse translation of the beginning of book 3 of Paradise Lost in 1962, and the 1974 translation of Areopagitica—were done under the circumstance of censorship practised in Estonia by either Russian or Soviet authorities. The 1895 translation was read in an atmosphere of late national awakening when Estonians were trying to find a way to restore their ‘paradise’ of independence. The 1962 verse translation was published in the hope of consciously influencing the moral attitude of its readers. The 1974 translation of Areopagitica highlighted the absurdities of Soviet book production.
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38

Software Design Description for the Globally Relocatable Navy Tide/ Atmosphere Modeling System (PCTides). Storming Media, 2001.

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39

United States. National Oceanic and Atmospheric Administration. National Oceanic and Atmospheric Administration, Noaa: Tide Table 1996 West Coast (Tide Tables: West Coast of North & South America, Including the Hawaiian Islands). Mcgraw-Hill, 1995.

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40

Turbulence: A novel of the atmosphere. London: Faber and Faber, 2009.

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41

Christianson, Gale E. Greenhouse. Greystone Books, 1999.

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42

An ocean of air: A natural history of the atmosphere. London: Bloomsbury, 2007.

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43

An ocean of air: A natural history of the atmosphere. London: Bloomsbury, 2008.

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44

World on fire: Saving an endangered earth. New York: Scribner, 1991.

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45

An Ocean of Air: Why the Wind Blows and Other Mysteries of the Atmosphere. Orlando: Harcourt, 2007.

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46

An Ocean of Air: Why the Wind Blows and Other Mysteries of the Atmosphere. Harvest Books, 2008.

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47

An ocean of air: Why the wind blows and other mysteries of the atmosphere. Orlando: Harcourt, 2007.

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48

Wolf, E. L. Sustainable Energy Beyond Carbon. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198769804.003.0002.

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Annotation:
Energy from the Sun leads to direct heating of the Earth, and also to secondary forms of energy in winds, waves and hydroelectricity. Long-term energy resources in the Earth and its motions include tides, geothermal energy, fission fuels, and in deuterium that may potentially be used to power nuclear fusion reactors. We are interested in energy sources that will last on a time scale of thousands of years, and further, that will not interfere with other important aspects of life on Earth, such as clean air and water in abundant supply. Plants grew by photosynthesis starting in the carboniferous era, about 300 million years ago, and the decay of some of these, instead of oxidizing back into the atmosphere, occurred underground in oxygen-free zones.
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49

Wolf, E. L. Physics and Technology of Sustainable Energy. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198769804.001.0001.

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This is a physics textbook describing, at a college level, the physics and technology needed to provide sustainable long-term energy, past the era of fossil fuels. A summary is given of global power generation and consumption, with estimates of times until conventional fuels will deplete. Sustainable power sources, largely those coming from the Sun directly or indirectly, are described. As sustainable energy must preserve the Earth’s atmosphere and climate, key elements of these topics are included. Key energy technologies in this book include photovoltaics, wind turbines and the electric power grid, for which the underlying physics is developed. Nuclear fusion is described in the context of the Sun’s energy generation, in a brief description of tokamak fusion reactors, and also to introduce ideas of quantum physics needed for adequate treatment of photovoltaic devices. Energy flow in and out of the Earth’s atmosphere is discussed, including the role of greenhouse gas impurities arising from fossil fuel burning as trapping heat and raising the Earth’s temperature. Discussion is included of the Earth’s climatic history and future. Exercises are included for each chapter.
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50

Ellam, Rob. 8. Scratching the surface with cosmogenic isotopes. Oxford University Press, 2016. http://dx.doi.org/10.1093/actrade/9780198723622.003.0008.

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‘Scratching the surface with cosmogenic isotopes’ explains spallation—when a high energy cosmic ray particle removes several nucleons from an atom. Spallation produces 10Be from 16O in the atmosphere and rock surfaces, while spallation of silicon produces another cosmogenic isotope, 26Al. Cosmogenic isotope production is about four times greater at the poles than at the equator and is also greater at higher altitudes. To calculate a cosmogenic isotope exposure age, the latitude and altitude at which the sample was exposed needs to be known. Using ‘exposure’ and ‘burial’ methodologies, cosmogenic isotopes can be used to address various scientific problems such as recreating the seismic histories of tectonically active areas.
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