Call number:
AWI A13-94-0047
;
AWI A6-95-0103-1
;
AWI A6-95-0103-2
In:
Methods in computational physics
Type of Medium:
Monograph available for loan
Pages:
IX, 337 S. : Ill.
ISBN:
0124608175
Series Statement:
Methods in computational physics 17
Note:
Contents: CONTRIBUTORS. - PREFACE. - COMPUTATIONAL ASPECTS OF NUMERICAL MODELS FOR WEATHER PREDICTION AND CLIMATE SIMULATION / Akira Kasahara. - I. Introduction. - II. Basic Equations of the Atmosphere. - III. Principal Procedure in Numerical Prediction. - IV. Physical Processes in Prediction Models. - V. Numerical Integration Methods. - VI. Initial Conditions. - VII. Future Outlook. - References. - UNITED KINGDOM METEOROLOGICAL OFFICE FIVE-LEVEL GENERAL CIRCULATION MODEL / G. A. Corby, A. Gilchrist, and P. R. Rowntree. - I. Introduction. - II. Coordinate System and Grid. - III. Basic Equations and Finite Difference Approximations. - IV. Dissipation Terms (Lateral Eddy Viscosity). - V. Large-Scale Precipitation and Latent Heating. - VI. Simple Boundary Layer Parameterization. - VII. Representation of Surface Exchange Processes. - VIII. Treatment of Land and Ice Surfaces. - IX. Convective Interchange. - X. Radiation Scheme. - XI. Model's January and July Simulations. - List of Symbols. - References. - A DESCRIPTION OF THE NCAR GLOBAL CIRCULATION MODELS / Warren M. Washington and David L. Williamson. - I. Origin and Development of the NCAR Global Circulation Models. - II. Continuous Equations. - III. Numerical Approximation. - IV. Application of NCAR Models. - References. - COMPUTATIONAL DESIGN OF THE BASIC DYNAMICAL PROCESSES OF THE UCLA GENERAL CIRCULATION MODEL / Akio Arakawa and Vivian R. Lamb. - I. Outline of the General Circulation Model.- II. Principles of Mathematical Modeling. - III. Finite Difference Schemes for Homogeneous Incompressible Flow. - IV. Basic Governing Equations. - V. The Vertical Difference Scheme of the Model. - VI. The Horizontal Difference Scheme of the Model. - VII. Vertical and Horizontal Differencing of the Water Vapor and Ozone Continuity Equations. - VIII. Time Differencing. - IX. Summary and Conclusions. - References. - GLOBAL MODELING OF ATMOSPHERIC FLOW BY SPECTRAL METHODS / William Bourke, Bryant McAvaney, Kamal Puri, and Robert Thurling. - I. Introduction. - II. Spectral Algebra. - III. Multilevel Spectral Model. - IV. Numerical Weather Prediction via a Spectral Model. - V. General Circulation via a Spectral Model. - VI. Conclusion. - Appendix. - References. - AUTHOR INDEX. - SUBJECT INDEX. - CONTENTS OF PREVIOUS VOLUMES.
Location:
AWI Reading room
Location:
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Location:
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Branch Library:
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Branch Library:
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Branch Library:
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