Dynamic Climatology
Basis in Mathematics and Physics
Paperback Engels 2000 9781577180166Samenvatting
This book is an introduction to the concepts behind the popular understanding of climate and global warming. The author provides readers with a survey and reference to the subject to be used before, during and after they delve into the details of statistics, dynamics and thermodynamics.
Dynamic Climatology reviews the basic concepts in the study of dynamic climatology, their expression in the form of equations and the physics of models used to reproduce the weather phenomena of a specific location. It takes a historical approach concentrating on the development of ideas during the last four hundred years. Unlike most books in this field, which are devoted to a single aspect of dynamic climatology, the intent of this volume is to present a coherent narrative of the different components of climate thus providing a solid basis of understanding.
Specificaties
Lezersrecensies
Inhoudsopgave
<p>List of Tables.</p>
<p>Preface.</p>
<p>Part I: The Field of Dynamic Climatology: .</p>
<p>Part II: Mathematics:.</p>
<p>1. Geometry.</p>
<p>2. Differential Calculus.</p>
<p>3. Partial Derivatives.</p>
<p>4. Integral Calculus.</p>
<p>5. Development of Calculus.</p>
<p>6. Vectors.</p>
<p>7. The Exponential and Complex Numbers.</p>
<p>8. Finite Differences.</p>
<p>9. Comment.</p>
<p>Part III: Statistics:.</p>
<p>10. Data.</p>
<p>11. One Variable Descriptive Statistics.</p>
<p>12. Two Variables.</p>
<p>13. Dependence.</p>
<p>14. Dependence for More Than One Variable.</p>
<p>15. Comment.</p>
<p>Part IV: Mechanics:.</p>
<p>16. Newton′s Definitions and Laws.</p>
<p>17. Base Units.</p>
<p>18. Derived Units.</p>
<p>19. Discussion.</p>
<p>Part V: Thermodynamics:.</p>
<p>20. Definitions.</p>
<p>21. The Equation of State – The Macroscopic Approach.</p>
<p>22. Atmospheric Composition.</p>
<p>23. Heat.</p>
<p>24. The First Law of Thermodynamics.</p>
<p>25. The Carnot Cycle.</p>
<p>26. Dry Adiabats and Potential Temperature.</p>
<p>27. The Second Law of Thermodynamics.</p>
<p>28. Water.</p>
<p>29. Discussion.</p>
<p>Part VI: Radiation: .</p>
<p>30. Early Work.</p>
<p>31. Quanta.</p>
<p>32. Definitions of Laws of Radiation.</p>
<p>33. Applications to the Earth.</p>
<p>34. Comment.</p>
<p>Part VII: Atmospheric Equations:.</p>
<p>35. The Nature of Fluids.</p>
<p>36. Continuity – Conservation of Mass.</p>
<p>37. Molecular Viscosity.</p>
<p>38. The Stress Tenor.</p>
<p>39. Navier–Stokes Equations.</p>
<p>40. Turbulent Eddy Viscosity.</p>
<p>41. The Vector Equation of Motion.</p>
<p>42. General Coordinates.</p>
<p>43. Some Simple Solutions.</p>
<p>44. Fluid Rotation.</p>
<p>45. The Equation Set.</p>
<p>46. Comment.</p>
<p>Part VIII: Observed Angular Momentum and Energy: .</p>
<p>47. Perspective.</p>
<p>48. Angular Momentum.</p>
<p>49. The Partition of Energy.</p>
<p>50. The Lorenz Model of Energy Flow.</p>
<p>51. Heat Budget.</p>
<p>52. Water Budget.</p>
<p>53. Conversion between Scales of Motion.</p>
<p>54. The General Circulation.</p>
<p>Part IX: Towards an Explanation of Climate: .</p>
<p>55. The Problem.</p>
<p>56. Numerical Modeling.</p>
<p>57. Climate Modeling.</p>
<p>Part X: Concluding Remarks:.</p>
<p>58. Power Notation.</p>
<p>59. Constants.</p>
<p>60. Conversions.</p>
<p>61. World Data.</p>
<p>Index.</p>
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