Flow of Rarefied Gas over Plane Wall
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概要
- 論文の詳細を見る
- 社団法人日本物理学会の論文
- 1979-08-15
著者
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Sone Yoshio
Department Of Aeronautical Engineering Faculty Of Engineering Kyoto University
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ONISHI Yoshimoto
Department of Mechanical Engineering,University of Osaka Prefecture
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Onishi Yoshimoto
Department Of Mechanical Engineering College Of Engineering University Of Osaka Prefecture
関連論文
- Flow of Rarefied Gas over Plane Wall
- Flow of Rarefied Gas over Plane Wall
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- Effect of Sudden Change of Wall Temperature in Rarefied Gas
- Flow of Dusty Gas past a Body
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- Kinetic Theory of Evaporation and Condensation : Hydrodynamic Equation and Slip Boundary Condition
- Slightly Rarefied Gas Flow over a Body with Small Accommodation Coefficient
- Kinetic Theory of Evaporation and Condensation
- The Behavior of a Vapor Gas around its Spherical Droplet
- Kinetic Theory Treatment of Nonlinear Half-Space Problem of Evaporation and Condensation
- A Nonlinear Analysis on the Behavior of a Small Amount of Inert Gas during Evaporation and Condensation of a Vapor between the Parallel Surfaces
- Kinetic Theory of Evaporation and Condensation of a Vapor Gas Between concentric Cylinders and Spheres
- Experimental Study on Instability of Natural Convection Flow above a Horizontal Line Heat Source
- Kinetic Theory Treatment of Motion of a Spherical Condensed Phase in a Uniform Vapor Gas Flow
- A Note on the Exponential Approximation in Problems of Radiating Gas
- Some Remarks on Knudsen Layer
- A Note on Thermal Creep in Rarefied Gas
- Some Studies on Rarefied Gas Flows
- Some Compressibility Effects on Rarefied Gas Flow in Rayleigh Problem
- Thermal Creep in Rarefied Gas
- On the Flow of Viscous Conducting Fluid past a Magnetized Sphere
- The behavior of a gas in the continuum limit in the light of kinetic theory : the case of cylindrical Couette flows with evaporation and condensation
- Kinetic Theory of Evaporation and Condensation : Linear and Nonlinear Problems
- Kinetic Theory of Evaporation and Condensation —Hydrodynamic Equation and Slip Boundary Condition—