Applied Atmospheric Dynamics
Published on 14. July 2006
Book
Paperback/Softback
290 pages
978-0-470-86173-8 (ISBN)
Unfortunately, price unknown
Article exhausted; check different version
Description
The weather can be a cause of disruption, despair and even danger everywhere around the world at one time or another. Even when benign it is a source of constant fascination. Applied Atmospheric Dynamics connects this interest with the theoretic underpinnings of fluid dynamics; linking real physical events as diverse as Hurricane Katrina and the strong katabatic winds of Antarctica, with quantitative conceptual models of atmospheric behaviour.
Assuming only basic calculus the book provides a physical basis for understanding atmospheric motions around the globe as well as detailing the advances that have led to a greater understanding of weather and climate.
The accompanying supplementary cd-rom features colour graphics, maps, databases, animations, project materials, as well as weather data tips.
* covers the standard theoretical principles of atmospheric dynamics and applies the theory to global real world examples;
* assumes only non-vector based calculus;
* features supplementary cd-rom with electronic versions of all figures, case study data and possible term projects;
* an invaluable text for students of Meteorology, Atmospheric Science, Geography and Environmental Science.
Assuming only basic calculus the book provides a physical basis for understanding atmospheric motions around the globe as well as detailing the advances that have led to a greater understanding of weather and climate.
The accompanying supplementary cd-rom features colour graphics, maps, databases, animations, project materials, as well as weather data tips.
* covers the standard theoretical principles of atmospheric dynamics and applies the theory to global real world examples;
* assumes only non-vector based calculus;
* features supplementary cd-rom with electronic versions of all figures, case study data and possible term projects;
* an invaluable text for students of Meteorology, Atmospheric Science, Geography and Environmental Science.
Reviews / Votes
"...a recommended text for an introductory level weather systems or geophysical fluid dynamics course..." (Area, 2007)More details
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Additional editions
Amanda H. Lynch | John J. Cassano
Applied Atmospheric Dynamics
Book
07/2006
Wiley
€207.50
Article exhausted; check different version
Amanda H. Lynch | John J. Cassano
Applied Atmospheric Dynamics
E-Book
07/2006
Wiley
€62.99
Available for download
Persons
Dr Amanda Lynch and Dr John Cassano, CIRES, University of Colorado at Boulder, USA.
Content
PART I: ANATOMY OF A CYCLONE.
CHAPTER 1 ANATOMY OF A CYCLONE.
1.1 A "TYPICAL" EXTRA-TROPICAL CYCLONE.
1.2 DESCRIBING THE ATMOSPHERE.
1.3 AIR MASSES AND FRONTS.
1.4 THE STRUCTURE OF A TYPICAL EXTRA-TROPICAL CYCLONE.
1.5 REVIEW QUESTIONS.
CHAPTER 2 MATHEMATICAL METHODS IN FLUID DYNAMICS.
2.1 SCALARS AND VECTORS.
2.2 THE ALGEBRA OF VECTORS.
2.3 SCALAR AND VECTOR FIELDS.
2.4 COORDINATE SYSTEMS ON THE EARTH.
2.5 GRADIENTS OF VECTORS.
2.6 LINE AND SURFACE INTEGRALS.
2.7 EULERIAN AND LAGRANGIAN FRAMES OF REFERENCE.
2.8 ADVECTION.
2.9 REVIEW QUESTIONS.
CHAPTER 3 PROPERTIES OF FLUIDS.
3.1 SOLIDS, LIQUIDS AND GASES.
3.2 THERMODYNAMIC PROPERTIES OF AIR.
3.3 COMPOSITION OF THE ATMOSPHERE.
3.4 STATIC STABILITY.
3.5 THE CONTINUUM HYPOTHESIS.
3.6 PRACTICAL ASSUMPTIONS.
3.7 CONTINUITY EQUATION.
3.8 REVIEW QUESTIONS.
CHAPTER 4 FUNDAMENTAL FORCES.
4.1 NEWTON'S SECOND LAW: F=MA.
4.2 BODY, SURFACE AND LINE FORCES.
4.3 FORCES IN AN INERTIAL REFERENCE FRAME.
4.4 FORCES IN A ROTATING REFERENCE FRAME.
4.5 THE NAVIER-STOKES EQUATION.
4.6 REVIEW QUESTIONS.
CHAPTER 5 SCALE ANALYSIS.
5.1 DIMENSIONAL HOMOGENEITY.
5.2 SCALES.
5.3 NON-DIMENSIONAL PARAMETERS.
5.4 SCALE ANALYSIS.
5.5 THE GEOSTROPHIC APPROXIMATION.
5.6 REVIEW QUESTIONS.
CHAPTER 6 SIMPLE STEADY MOTION.
6.1 NATURAL COORDINATE SYSTEM.
6.2 BALANCED FLOW.
6.3 THE BOUSSINESQ APPROXIMATION.
6.4 THE THERMAL WIND.
6.5 DEPARTURES FROM BALANCE.
6.6 REVIEW QUESTIONS.
CHAPTER 7 CIRCULATION AND VORTICITY.
7.1 CIRCULATION.
7.2 VORTICITY.
7.3 CONSERVATION OF POTENTIAL VORTICITY.
7.4 AN INTRODUCTION TO THE VORTICITY EQUATION.
7.5 REVIEW QUESTIONS.
CHAPTER 8 SIMPLE WAVE MOTIONS.
8.1 PROPERTIES OF WAVES.
8.2 PERTURBATION ANALYSIS.
8.3 PLANETARY WAVES.
8.4 REVIEW QUESTIONS.
CHAPTER 9 EXTRA-TROPICAL WEATHER SYSTEMS.
9.1 FRONTS.
9.2 FRONTAL CYCLONES.
9.3 BAROCLINIC INSTABILITY.
9.4 REVIEW QUESTIONS.
PART II: ATMOSPHERIC PHENOMENA.
CHAPTER 10 BOUNDARY LAYERS.
10.1 TURBULENCE.
10.2 REYNOLDS DECOMPOSITION.
10.3 GENERATION OF TURBULENCE.
10.4 CLOSURE ASSUMPTIONS.
10.5 PROBLEM SET.
CHAPTER 11 CLOUDS AND SEVERE WEATHER.
11.1 MOIST PROCESSES IN THE ATMOSPHERE.
11.2 AIR MASS THUNDERSTORMS.
11.3 MULTI-CELL THUNDERSTORMS.
11.4 SUPERCELL THUNDERSTORMS AND TORNADOES.
11.5 MESOSCALE CONVECTIVE SYSTEMS.
11.6 REVIEW QUESTIONS.
CHAPTER 12 TROPICAL WEATHER.
12.1 SCALES OF MOTION.
12.2 ATMOSPHERIC OSCILLATIONS.
12.3 TROPICAL CYCLONES.
12.4 PROBLEM SET.
CHAPTER 13 MOUNTAIN WEATHER.
13.1 INTERNAL GRAVITY WAVES.
13.2 FLOW OVER MOUNTAINS
13.3 DOWNSLOPE WINDSTORMS.
13.4 REVIEW QUESTIONS.
CHAPTER 14 POLAR WEATHER.
14.1 KATABATIC WINDS.
14.2 BARRIER WINDS.
14.3 POLAR LOWS.
14.4 REVIEW QUESTIONS.
CHAPTER 15 EPILOGUE: THE GENERAL CIRCULATION.
15.1 THE GREENHOUSE EFFECT.
15.2 RADIATIVE-CONVECTIVE EQUILIBRIUM.
15.3 THE ZONAL MEAN CIRCULATION.
15.4 THE ANGULAR MOMENTUM BUDGET.
15.5 THE ENERGY CYCLE.
APPENDIX 1: SYMBOLS.
APPENDIX 2: CONST.
CHAPTER 1 ANATOMY OF A CYCLONE.
1.1 A "TYPICAL" EXTRA-TROPICAL CYCLONE.
1.2 DESCRIBING THE ATMOSPHERE.
1.3 AIR MASSES AND FRONTS.
1.4 THE STRUCTURE OF A TYPICAL EXTRA-TROPICAL CYCLONE.
1.5 REVIEW QUESTIONS.
CHAPTER 2 MATHEMATICAL METHODS IN FLUID DYNAMICS.
2.1 SCALARS AND VECTORS.
2.2 THE ALGEBRA OF VECTORS.
2.3 SCALAR AND VECTOR FIELDS.
2.4 COORDINATE SYSTEMS ON THE EARTH.
2.5 GRADIENTS OF VECTORS.
2.6 LINE AND SURFACE INTEGRALS.
2.7 EULERIAN AND LAGRANGIAN FRAMES OF REFERENCE.
2.8 ADVECTION.
2.9 REVIEW QUESTIONS.
CHAPTER 3 PROPERTIES OF FLUIDS.
3.1 SOLIDS, LIQUIDS AND GASES.
3.2 THERMODYNAMIC PROPERTIES OF AIR.
3.3 COMPOSITION OF THE ATMOSPHERE.
3.4 STATIC STABILITY.
3.5 THE CONTINUUM HYPOTHESIS.
3.6 PRACTICAL ASSUMPTIONS.
3.7 CONTINUITY EQUATION.
3.8 REVIEW QUESTIONS.
CHAPTER 4 FUNDAMENTAL FORCES.
4.1 NEWTON'S SECOND LAW: F=MA.
4.2 BODY, SURFACE AND LINE FORCES.
4.3 FORCES IN AN INERTIAL REFERENCE FRAME.
4.4 FORCES IN A ROTATING REFERENCE FRAME.
4.5 THE NAVIER-STOKES EQUATION.
4.6 REVIEW QUESTIONS.
CHAPTER 5 SCALE ANALYSIS.
5.1 DIMENSIONAL HOMOGENEITY.
5.2 SCALES.
5.3 NON-DIMENSIONAL PARAMETERS.
5.4 SCALE ANALYSIS.
5.5 THE GEOSTROPHIC APPROXIMATION.
5.6 REVIEW QUESTIONS.
CHAPTER 6 SIMPLE STEADY MOTION.
6.1 NATURAL COORDINATE SYSTEM.
6.2 BALANCED FLOW.
6.3 THE BOUSSINESQ APPROXIMATION.
6.4 THE THERMAL WIND.
6.5 DEPARTURES FROM BALANCE.
6.6 REVIEW QUESTIONS.
CHAPTER 7 CIRCULATION AND VORTICITY.
7.1 CIRCULATION.
7.2 VORTICITY.
7.3 CONSERVATION OF POTENTIAL VORTICITY.
7.4 AN INTRODUCTION TO THE VORTICITY EQUATION.
7.5 REVIEW QUESTIONS.
CHAPTER 8 SIMPLE WAVE MOTIONS.
8.1 PROPERTIES OF WAVES.
8.2 PERTURBATION ANALYSIS.
8.3 PLANETARY WAVES.
8.4 REVIEW QUESTIONS.
CHAPTER 9 EXTRA-TROPICAL WEATHER SYSTEMS.
9.1 FRONTS.
9.2 FRONTAL CYCLONES.
9.3 BAROCLINIC INSTABILITY.
9.4 REVIEW QUESTIONS.
PART II: ATMOSPHERIC PHENOMENA.
CHAPTER 10 BOUNDARY LAYERS.
10.1 TURBULENCE.
10.2 REYNOLDS DECOMPOSITION.
10.3 GENERATION OF TURBULENCE.
10.4 CLOSURE ASSUMPTIONS.
10.5 PROBLEM SET.
CHAPTER 11 CLOUDS AND SEVERE WEATHER.
11.1 MOIST PROCESSES IN THE ATMOSPHERE.
11.2 AIR MASS THUNDERSTORMS.
11.3 MULTI-CELL THUNDERSTORMS.
11.4 SUPERCELL THUNDERSTORMS AND TORNADOES.
11.5 MESOSCALE CONVECTIVE SYSTEMS.
11.6 REVIEW QUESTIONS.
CHAPTER 12 TROPICAL WEATHER.
12.1 SCALES OF MOTION.
12.2 ATMOSPHERIC OSCILLATIONS.
12.3 TROPICAL CYCLONES.
12.4 PROBLEM SET.
CHAPTER 13 MOUNTAIN WEATHER.
13.1 INTERNAL GRAVITY WAVES.
13.2 FLOW OVER MOUNTAINS
13.3 DOWNSLOPE WINDSTORMS.
13.4 REVIEW QUESTIONS.
CHAPTER 14 POLAR WEATHER.
14.1 KATABATIC WINDS.
14.2 BARRIER WINDS.
14.3 POLAR LOWS.
14.4 REVIEW QUESTIONS.
CHAPTER 15 EPILOGUE: THE GENERAL CIRCULATION.
15.1 THE GREENHOUSE EFFECT.
15.2 RADIATIVE-CONVECTIVE EQUILIBRIUM.
15.3 THE ZONAL MEAN CIRCULATION.
15.4 THE ANGULAR MOMENTUM BUDGET.
15.5 THE ENERGY CYCLE.
APPENDIX 1: SYMBOLS.
APPENDIX 2: CONST.