Ionized Shock Front Analysis. Part Iii. Effect of Joule Heating on Electron Density Level and Microwave Properties Downstream of a Strong Shock Wave PDF Download
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Author: MELVIN. EPSTEIN Publisher: ISBN: Category : Languages : en Pages : 1
Book Description
An investigation was carried out of the interaction between a slightly ionized gas downstream of a shock wave and a microwave of sufficient strength to at least slightly alter the electron density level in the gas. The particular type of interaction is that resulting from the Joule heating of the gas. It is assumed that the gas is always in complete equilibrium and so the results may be considered to be valid only in the limiting case of collision frequency large compared to the signal frequency. The calculations indicate that this type of interaction may produce significant increases in electron density level for field strengths as low as one volt/cm under the appropriate conditions. (Author).
Author: MELVIN. EPSTEIN Publisher: ISBN: Category : Languages : en Pages : 1
Book Description
An investigation was carried out of the interaction between a slightly ionized gas downstream of a shock wave and a microwave of sufficient strength to at least slightly alter the electron density level in the gas. The particular type of interaction is that resulting from the Joule heating of the gas. It is assumed that the gas is always in complete equilibrium and so the results may be considered to be valid only in the limiting case of collision frequency large compared to the signal frequency. The calculations indicate that this type of interaction may produce significant increases in electron density level for field strengths as low as one volt/cm under the appropriate conditions. (Author).
Author: Huon Li Publisher: ISBN: Category : Differential equations Languages : en Pages : 132
Book Description
The multi-component continuous approach for the investigation of the gasdynamics of a plasma is presented. More information about the flow properties of a plasma can be obtained than from the classical magnetohydrodynamic approach. Also, the resulting equations appear to be more easily solved than the Blotzmann equation of classical kinetic theory. The basic macroscopic conservation equations for a non-reacting multi-component plasma are presented. The fluid properties of each component are referred to the mean velocity of that component. Therefore, no limitations are placed on the magnitude of the diffusion velocities. The effects of electric and magnetic fields are included. The equations for a two-component mixture are used to study the structure of a shock wave in a fully-ionized hydrogen gas. It is assumed that the momentum exchange and energy exchange between the ions and electrons are important because of the strong Coulomb forces present. (Author).
Author: Jorge Colman Lerner Publisher: BoD – Books on Demand ISBN: 9533076232 Category : Science Languages : en Pages : 728
Book Description
The book "Wind Tunnels and Experimental Fluid Dynamics Research" is comprised of 33 chapters divided in five sections. The first 12 chapters discuss wind tunnel facilities and experiments in incompressible flow, while the next seven chapters deal with building dynamics, flow control and fluid mechanics. Third section of the book is dedicated to chapters discussing aerodynamic field measurements and real full scale analysis (chapters 20-22). Chapters in the last two sections deal with turbulent structure analysis (chapters 23-25) and wind tunnels in compressible flow (chapters 26-33). Contributions from a large number of international experts make this publication a highly valuable resource in wind tunnels and fluid dynamics field of research.
Author: MELVIN. EPSTEIN
Author: MELVIN. EPSTEIN
Author: Melvin Epstein
Author: Defense Documentation Center (U.S.)
Author: 
Author: Defense Documentation Center (U.S.)
Author: 
Author: 
Author: United States. Dept. of Commerce. Office of Technical Services
Author: Huon Li
Author: Jorge Colman Lerner