Table of Contents: Chapter Availability
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Preface;
Chapter 1.- Nonlinear Hydromagnetic Surface Waves Instability in Porous Media; pp. 1-103
(Yusry O. El-Dib, Ain Shams University, Egypt);
Chapter 2.- Microwave Heating of the Dense Plasma in the Epsilon Device; pp. 105-119
(A. V. Timofeev);
Chapter 3.- Investigation of the Proportional Discharge Mechanism in Nonelectronegative Gases; pp. 121-127
(B. M. Ovchinnikov, Y. B. Ovchinnikov and V. V. Parusov, Institute for Nuclear Research of the Russian Academy Sciences, Russia);
Chapter 4.- Shock Wave Surfing Acceleration; pp. 129-132
(A. A. Vasiliev, Space Research Institute, Russia);
Chapter 5.- Observations of Superluminescence in Argon Plasma by Means of Acoustic Waves; pp. 133-145
(A. R. Aramyan, Institute of Applied Problems of Physics, Republic of Armenia);
Chapter 6.- The Role of Complex Magnitudes In Plasma Electrodynamics; pp. 147-177
(V. V. Lyahov and V. M. Neshchadim, Institute of Seismology of Ministry of Education and Science of RK, Kazakhstan);
Chapter 7.- Experimental Investigation of Heat Content in the Jet of Magnetoplasmadynamic Accelerator in Accordance with its Spatial Orientation; pp. 179-196
(Yu. A.Baurov, A. G.Znak, and V. G.Farafonov, Central Research Institute of Machine Building, Russia);
Chapter 8.- Electron Gas Oscillations in Plasma Theory and Applications; pp. 197-212
(Maxim Dvornikov, Moscow State University, Russia; Sergey Dvornikov, N. N. Andreev Institute of Acoustics, Russia);
Chapter 9.- Effects of Suction and Injection on MHD Heat Transfer in Stagnation Point Flow with Variable Body Temperature; pp. 213-219
(V. M. Soundalgekar, Brindavan Society; N. V. Vighnesam, ISRO Satellite Centre, India; H. S. Takhar, Manchester Metropolitan University, U. K.);
Chapter 10.- Multiharmonic Treatment of Non-Resonant Growing of Electromagnetic Wave Amplified by Energetic Electrons with Ring-Beam Distribution; pp. 221-241
(Huang Guang-Li, Purple Mountain Observatory, P. R. of China; Mao Ding-Yi, Hehai University, P. R. of China);
Index. |