An Introduction to Dynamic Meteorology: Volume 88
Volume 88
6th Edition
Will be published approx. on 1. December 2029
Book
Paperback/Softback
600 pages
978-0-12-809329-0 (ISBN)
Description
An Introduction to Dynamic Meteorology, Sixth Edition, Volume 88, is the latest release in this gold standard for generations of meteorologists who use it as a textbook and reference in their careers. This updated edition reflects the latest research in the field, providing a cogent explanation of the fundamentals of meteorology and an explanation of storm dynamics for weather-oriented meteorologists. The first seven chapters lay the foundation for the study of atmospheric dynamics, with the latter chapters covering more advanced material, ENSO, seasonal dynamics, climate dynamics, and in this new edition, weather-ocean dynamics.
More details
Series
Edition
6th edition
Language
English
Place of publication
San Diego
United States
Publishing group
Elsevier Science Publishing Co Inc
Target group
College/higher education
Product notice
Paperback (trade)
Unsewn / adhesive bound
Dimensions
Height: 229 mm
Width: 152 mm
ISBN-13
978-0-12-809329-0 (9780128093290)
Copyright in bibliographic data is held by Nielsen Book Services Limited or its licensors: all rights reserved.
Schweitzer Classification
Other editions
Previous edition
James R. Holton | Gregory J. Hakim
An Introduction to Dynamic Meteorology: Volume 88
Book
09/2012
5th Edition
Academic Press
€93.00
Shipment within 15-20 days
Persons
James R. Holton was Professor of Atmospheric Sciences at the University of Washington until his death in 2004. A member of the National Academies of Science, during his career he was awarded every major honor available in the atmospheric sciences including AGU's Revelle Medal. Gregory J. Hakim is Professor and Chair of the Department of Atmospheric Sciences in the College of the Environment at the University of Washington. His research focuses on problems in climate reconstruction, predictability, data assimilation, atmospheric dynamics, and synoptic meteorology. He teaches courses in weather, atmospheric sciences, atmospheric structure and analysis, atmospheric motions, synoptic meteorology, balance dynamics, and weather predictability and data assimilation.
Content
1. Introduction
2. Basic Conservation Laws
3. Elementary Applications of the Basic Equations
4. Circulation, Vorticity, and Potential Vorticity
5. Atmospheric Oscillations
6. Quasi-geostrophic Analysis
7. Baroclinic Development
8. The Planetary Boundary Layer
9. Mesoscale Circulations
10. The General Circulation11. Tropical Dynamics
12. Middle Atmosphere Dynamics
13. Weather-Ocean Dynamics
14. Numerical Modeling and Prediction
Appendix
A. Useful Constants and Parameters
B. List of Symbols
C. Vector Analysis
D. Moisture Variables
E. Standard Atmosphere Data
F. Symmetric Baroclinic Oscillations
G. Conditional Probability andLikelihood
2. Basic Conservation Laws
3. Elementary Applications of the Basic Equations
4. Circulation, Vorticity, and Potential Vorticity
5. Atmospheric Oscillations
6. Quasi-geostrophic Analysis
7. Baroclinic Development
8. The Planetary Boundary Layer
9. Mesoscale Circulations
10. The General Circulation11. Tropical Dynamics
12. Middle Atmosphere Dynamics
13. Weather-Ocean Dynamics
14. Numerical Modeling and Prediction
Appendix
A. Useful Constants and Parameters
B. List of Symbols
C. Vector Analysis
D. Moisture Variables
E. Standard Atmosphere Data
F. Symmetric Baroclinic Oscillations
G. Conditional Probability andLikelihood