Listing 1 - 10 of 38 | << page >> |
Sort by
|
Choose an application
Gas dynamics. --- Gasdynamics --- Fluid dynamics --- Thermodynamics
Choose an application
Detonation waves. --- Gas dynamics. --- Gasdynamics --- Fluid dynamics --- Thermodynamics --- Shock waves
Choose an application
Introduction to Molecular Beams Gas Dynamics is devoted to the theory and phenomenology of supersonic molecular beams. The book describes the main physical idea and mathematical methods of the gas dynamics of molecular beams, while the detailed derivation of results and equations is accompanied by an explanation of their physical meaning. The phenomenology of supersonic beams can appear complex to those not experienced in supersonic gas dynamics and the few existing reviews on the topic generally presume specific knowledge of the subject. The book begins with a quantitative description of the
Gas dynamics. --- Molecular beams. --- Molecular rays --- Positive rays --- Molecular dynamics --- Gasdynamics --- Fluid dynamics --- Thermodynamics
Choose an application
Molecular physics --- Gas dynamics. --- Gas flow. --- Molecular dynamics. --- KINETIC THEORY --- gas dynamics --- Monograph --- Gasdynamics --- Fluid dynamics --- Thermodynamics
Choose an application
533.6 --- #KVIV:BB --- Aerodynamics --- 533.6 Aerodynamics --- Gas dynamics --- Gasdynamics --- Fluid dynamics --- Thermodynamics --- Mathematical models --- Mathematical models.
Choose an application
Differential equations, Partial --- Gas dynamics --- 51 --- Gasdynamics --- Fluid dynamics --- Thermodynamics --- Partial differential equations --- 51 Mathematics --- Mathematics --- Mathematical physics --- Molecular physics
Choose an application
Gas dynamics. --- Navier-Stokes equations. --- Equations, Navier-Stokes --- Differential equations, Partial --- Fluid dynamics --- Viscous flow --- Gasdynamics --- Thermodynamics
Choose an application
Gas dynamics. --- Compressibility. --- 533.6 --- 533.6 Aerodynamics --- Aerodynamics --- High pressure physics --- Matter --- Pressure --- Gasdynamics --- Fluid dynamics --- Thermodynamics --- Properties --- Compressibility --- Gas dynamics --- Fluid dynamics. --- Compressible flow
Choose an application
Volume II of the High Speed Aerodynamics and Jet Propulsion series. The series which stress the more fundamental aspects of the various phenomena that make up the broad field of aeronautical science. The aerodynamicist and gas dynamicist will find both the classical and the important new concepts of gas dynamics presented in an informative and stimulating manner. Specialists in the study of gas dynamics have contributed Sections as follows: H. S. Tsien, The Equations of Gas Dynamics; L. Crocco, One-Dimensional Treatment of Steady Gas Dynamics; A. Kantrowitz, One-Dimensional Treatment of Nonsteady Gas Dynamics; W. Hayes, The Basic Theory of Gasdynamic Discontinuities; H. Polachek and R. J. Seeger, Shock Wave Interactions; H. G. Stever, Condensation Phenomena in High Speed Flows; T. H. Von Karman, H. W. Emmons, G. I. Taylor, and R. S. Tankin, Gas Dynamics of Combustion and Detonation; S. Schaaf and P. Chambre, Flow of Rarefied Gases.Originally published in 1958.The Princeton Legacy Library uses the latest print-on-demand technology to again make available previously out-of-print books from the distinguished backlist of Princeton University Press. These editions preserve the original texts of these important books while presenting them in durable paperback and hardcover editions. The goal of the Princeton Legacy Library is to vastly increase access to the rich scholarly heritage found in the thousands of books published by Princeton University Press since its founding in 1905.
Gases. --- Gas dynamics. --- Gas flow. --- Flow of gas --- Gases, Flow of --- Aerodynamics --- Gas dynamics --- Air flow --- Gasdynamics --- Fluid dynamics --- Thermodynamics --- Fluids --- Matter --- Gas laws (Physical chemistry) --- Pneumatics --- Properties
Choose an application
The topic of this book is Cold Spray technology. Cold Spray is a process of applying coatings by exposing a metallic or dielectric substrate to a high velocity (300 to 1200 m/s) jet of small (1 to 50 μm) particles accelerated by a supersonic jet of compressed gas. This process is based on the selection of the combination of particle temperature, velocity, and size that allows spraying at the lowest temperature possible. In the Cold Spray process, powder particles are accelerated by the supersonic gas jet at a temperature that is always lower than the melting point of the material, resulting in
Spraying. --- Metals --- Dielectrics --- Gas dynamics. --- Gasdynamics --- Fluid dynamics --- Thermodynamics --- Electrical engineering --- Electric insulators and insulation --- Metal finishing --- Finishes and finishing --- Metal-work --- Atomization --- Coating processes --- Finishing. --- Materials
Listing 1 - 10 of 38 | << page >> |
Sort by
|