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Books on the topic 'Dynamic meteorology Mathematics'

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Author: Grafiati
Published: 10 December 2022
Last updated: 30 January 2023

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1

Kalinin, Nikolaĭ Aleksandrovich. Transformat︠s︡ii︠a︡ kineticheskoĭ ėnergii v t︠s︡iklonakh umerennykh shirot. Permʹ: Permskiĭ gos. universitet, 2008.

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2

Kalinin, Nikolaĭ Aleksandrovich. Transformat︠s︡ii︠a︡ kineticheskoĭ ėnergii v t︠s︡iklonakh umerennykh shirot. Permʹ: Permskiĭ gos. universitet, 2008.

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3

K, Hall-Wallace Michelle, ed. Exploring the dynamic earth: GIS investigations for the earth sciences. Australia: Brooks/Cole, 2003.

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4

Gertenbach, Jan D. Workbook on aspects of dynamical meteorology: A self discovery mathematical journey for inquisitive minds. Pretoria (Private Bag X097, Pretoria 0001): J.D. Gertenbach, 2001.

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5

Schlünzen, H. Das mesoskalige Transport- und Strömungsmodell "Metras": Grundlagen, Validierung, Anwendung. Hamburg: G.M.L. Wittenborn, 1988.

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6

Paul, Becker. Numerische Untersuchungen zur Dynamik zwei- und dreidimensionaler konvektiver Strukturen in einer durch eine Inversion abgeschlossenen atmosphärischen Grenzschicht. Hamburg: G.M.L. Wittenborn, 1987.

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7

1945-, Norbury John, and Roulstone Ian, eds. Large-scale atmosphere-ocean dynamics. Cambridge, U.K: Cambridge University Press, 2002.

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8

Sahai, A. K. An objective study of Indian summer monsoon variability using the self organizing map algorithms. Pune: Indian Institute of Tropical Meteorology, 2006.

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9

Nataliya, Stashchuk, and Hutter Kolumban, eds. Baroclinic tides: Theoretical modeling and observational evidence. New York: Cambridge University Press, 2005.

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10

Vadimovich, Gruza Georgiĭ, ed. Klimaticheskai͡a︡ izmenchivostʹ: Stokhasticheskie modeli, predskazuemostʹ, spektry. Moskva: "Nauka", 1985.

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11

Herzog, Hans-Joachim. Zur Entwicklung eines Meso-alpha-Regionalmodells im MD der DDR: Detaillierte Beschreibung des adiabatischen Modellteils. Berlin: Akademie-Verlag, 1989.

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12

Modeling the ionosphere-thermosphere system. Washington, DC: American Geophysical Union, 2013.

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13

Arbic, Brian K. Generation of mid-ocean eddies: The local baroclinic instability hypothesis. Cambridge, Mass: Massachusetts Institute of Technology, 2000.

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14

Arbic, Brian K. Generation of mid-ocean eddies: The local baroclinic instability hypothesis. Cambridge, Mass: Massachusetts Institute of Technology, 2000.

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15

P, Kurbatkin G., ed. Modelirovanie krupnomasshtabnoĭ dinamiki atmosfery: Chislennye metody. Novosibirsk: Akademii͡a︡ nauk SSSR, Sibirskoe otd-nie, Vychislitelʹnyĭ t͡s︡entr, 1991.

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16

P, Kurbatkin G., ed. Modelirovanie krupnomasshtabnoĭ dinamiki atmosfery: Metody diagnoza obshcheĭ t͡s︡irkuli͡a︡t͡s︡ii. Novosibirsk: Akademii͡a︡ nauk SSSR, Sibirskoe otd-nie, Vychislitelʹnyĭ t͡s︡entr, 1990.

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17

Zhu, Yong. Geostrophic wave circulations. 2nd ed. Boston: New Knowledge Pub., 2002.

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18

Dutta, Somenath. A dynamical model to parameterize rainfall due to meso scale three dimensional orographic barrier. Dhaka: SAARC Meteorological Research Centre, 2007.

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19

V, Kolesnichenko A., ed. Mechanics of turbulence of multicomponent gases. Dordrecht: Kluwer Academic Publishers, 2001.

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20

service), SpringerLink (Online, ed. Fronts, Waves and Vortices in Geophysical Flows. Berlin, Heidelberg: Springer-Verlag Berlin Heidelberg, 2010.

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21

Zeytounian, Radyadour Kh. Navier-Stokes-Fourier Equations: A Rational Asymptotic Modelling Point of View. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012.

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22

1942-, Chu Vincent H., ed. Turbulent jets and plumes: A Lagrangian approach. Boston: Kluwer Academic Publishers, 2003.

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23

Lee, J. H. W. Turbulent jets and plumes: A Lagrangian approach. Boston, MA: Kluwer Academic Publishers, 2002.

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24

Gustav, Schweiger, ed. The airborne microparticle: Its physics, chemistry, optics, and transport phenomena. Berlin: Springer, 2002.

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25

Herrmann, Samuel. Stochastic resonance: A mathematical approach in the small noise limit. Providence, Rhode Island: American Mathematical Society, 2014.

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26

A Mathematical Theory of Large-scale Atmosphere/ocean Flow. Imperial College Press, 2006.

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27

K, Hall Michelle, ed. Exploring the dynamic Earth. Belmont, CA: Thomson, Brooks/Cole, 2007.

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28

Hall, Michelle K., C. Scott Walker, Larry P. Kendall, Christian J. Schaller, and Robert F. Butler. Exploring the Dynamic Earth: GIS Investigations for the Earth Sciences (with CD-ROM) (Gis Investigations for the Earth Sciences). Brooks Cole, 2002.

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29

Hall, Michelle K., C. Scott Walker, Larry P. Kendall, Jeff S. Jenness, Anne Huth, and Robert F. Butler. Exploring the Dynamic Earth: GIS Investigations for the Earth Sciences, ArcGIS® Edition. Brooks Cole, 2006.

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30

Tuck, Adrian F. Atmospheric Turbulence. Oxford University Press, 2008. http://dx.doi.org/10.1093/oso/9780199236534.001.0001.

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This book, authored by a well-known researcher and expositor in meteorology, focuses on the direct link between molecular dynamics, turbulence theory, fluid mechanics and non equilibrium statistical mechanics, it is relevant to the fields of applied mathematics, physics and atmospheric sciences, and focuses on fluid flow and turbulence, as well as on temperature, radiative transfer and chemistry. With extensive references and glossary, this is an ideal text for graduates and researchers in meteorology, applied mathematics and physical chemistry.
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31

Applied Atmospheric Dynamics. Wiley, 2006.

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32

Applied Atmospheric Dynamics. Wiley, 2006.

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33

Chemin, Jean-Yves, Benoit Desjardins, Isabelle Gallagher, and Emmanuel Grenier. Mathematical Geophysics. Oxford University Press, 2006. http://dx.doi.org/10.1093/oso/9780198571339.001.0001.

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Aimed at graduate students, researchers and academics in mathematics, engineering, oceanography, meteorology, and mechanics, this text provides a detailed introduction to the physical theory of rotating fluids, a significant part of geophysical fluid dynamics. The text is divided into four parts, with the first part providing the physical background of the geophysical models to be analyzed. Part two is devoted to a self contained proof of the existence of weak (or strong) solutions to the imcompressible Navier-Stokes equations. Part three deals with the rapidly rotating Navier-Stokes equations, first in the whole space, where dispersion effects are considered. The case where the domain has periodic boundary conditions is then analyzed, and finally rotating Navier-Stokes equations between two plates are studied, both in the case of periodic horizontal coordinated and those in R2. In Part IV, the stability of Ekman boundary layers and boundary layer effects in magnetohydrodynamics and quasigeostrophic equations are discussed. The boundary layers which appear near vertical walls are presented and formally linked with the classical Prandlt equations. Finally spherical layers are introduced, whose study is completely open.
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34

(Editor), John Norbury, and Ian Roulstone (Editor), eds. Large-Scale Atmosphere-Ocean Dynamics I. Cambridge University Press, 2002.

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35

Donaldson, William S. Integrating real-time weather data with dynamic crop development models. 1991.

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36

Donaldson, William S. Integrating real-time weather data with dynamic crop development models. 1991.

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37

Atmospheric Circulation Dynamics and Circulation Models. Springer, 2004.

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38

Vlasenko, Vasiliy, Nataliya Stashchuk, and Kolumban Hutter. Baroclinic Tides: Theoretical Modeling and Observational Evidence. Cambridge University Press, 2009.

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39

Vlasenko, Vasiliy, Nataliya Stashchuk, and Kolumban Hutter. Baroclinic Tides: Theoretical Modeling and Observational Evidence. Cambridge University Press, 2005.

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40

Vlasenko, Vasiliy, Nataliya Stashchuk, and Kolumban Hutter. Baroclinic Tides: Theoretical Modeling and Observational Evidence. Cambridge University Press, 2005.

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41

Vlasenko, Vasiliy, Nataliya Stashchuk, and Kolumban Hutter. Baroclinic Tides: Theoretical Modeling and Observational Evidence. Cambridge University Press, 2005.

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42

Vlasenko, Vasiliy, Nataliya Stashchuk, and Kolumban Hutter. Baroclinic Tides: Theoretical Modeling and Observational Evidence. University of Cambridge ESOL Examinations, 2012.

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43

U, Khattatov V., Fili͡u︡shkin V. V, and T͡S︡entralʹnai͡a︡ aėrologicheskai͡a︡ observatorii͡a︡, eds. Chislennoe modelirovanie sostava i dinamiki atmosfery: Materialy vsesoi͡u︡znogo soveshchani͡a︡, g. Suzdalʹ, fevralʹ 1988 g. Moskva: Moskovskoe otd-nie Gidrometeoizdata, 1991.

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44

Nichol, John Pringle. A Cyclopaedia of Physical Sciences: Comprising Acoustics, Astronomy, Dynamics, Electricity, Heat, Hydrodynamics, Magnetism, Philosophy of Mathematics, Meteorology, Optics, Pneumatics, Statics &C. &C. Palala Press, 2015.

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45

V, Penenko V., and Akademii͡a︡ nauk SSSR. Sibirskoe otdelenie. Vychislitelʹnyĭ t͡s︡entr., eds. Chislennoe modelirovanie dli͡a︡ zadach dinamiki atmosfery i okhrany okruzhai͡u︡shcheĭ sredy: Sbornik nauchnykh trudov. Novosibirsk: Akademii͡a︡ nauk SSSR, Sibirskoe otd-nie, Vychislitelʹnyĭ t͡s︡entr, 1989.

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46

Enting, I. G. Inverse Problems in Atmospheric Constituent Transport. Cambridge University Press, 2002.

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47

Inverse Problems in Atmospheric Constituent Transport. Cambridge University Press, 2002.

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48

Enting, I. G., and Edward Tipping. Inverse Problems in Atmospheric Constituent Transport. Cambridge University Press, 2009.

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49

Dessler, Alexander J., I. G. Enting, Michael J. Rycroft, Edward Tipping, and John T. Houghton. Inverse Problems in Atmospheric Constituent Transport. Cambridge University Press, 2004.

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50

Enting, I. G. Inverse Problems in Atmospheric Constituent Transport. Cambridge University Press, 2002.

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