Computational Fluid Dynamics

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JOHN D. ANDERSON, JR.

Computational Fluid Dynamics


THE BASICS WITH APPLICATIONS


COMPUTATIONAL FLUID DYNAMICS


The Basics with Applications


McGraw-Hill Series in Mechanical Engineering


Consulting Editors


Jack P. Holman, Southern Methodist University John R. Lloyd, Michigan State University


Anderson: Computational Fluid Dynamics: The Basics with Applications Anderson: Modern Compressible Flow: With Historical Perspective Arora: Introduction to Optimum Design


Bray and Stanley: Nondestructive Evaluation: A Tool for Design, Manufacturing, and Service


Burton: Introduction to Dynamic Systems Analysis Culp: Principles of Energy Conversion


Dally: Packaging of Electronic Systems: A Mechanical Engineering Approach


Dieter: Engineering Design: A Materials and Processing Approach


Driels: Linear Control Systems Engineering


Eckert and Drake: Analysis of Heat and Mass Transfer


Edwards and McKee: Fundamentals of Mechanical Component Design


Gebhart: Heat Conduction and Mass Diffusion


Gibson: Principles of Composite Material Mechanics


Hamrock: Fundamentals of Fluid Film Lubrication


Heywood: Internal Combustion Engine Fundamentals


Hinze: Turbulence


Holman: Experimental Methods for Engineers


Howell and Buckius: Fundamentals of Engineering Thermodynamics Hutton: Applied Mechanical Vibrations


Juvinall: Engineering Considerations of Stress, Strain, and Strength


Kane and Levinson: Dynamics: Theory and Applications


Kays and Crawford: Convective Heat and Mass Transfer


Kelly: Fundamentals of Mechanical Vibrations


Kimbrell: Kinematics Analysis and Synthesis


Kreider and Rabl: Heating and Cooling of Buildings


Martin: Kinematics and Dynamics of Machines


Modest: Radiative Heat Transfer


Norton: Design of Machinery


Phelan: Fundamentals of Mechanical Design

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