Viii. Plasma Magnetohydrodynamics and Energy Conversion

Prof. G. A. Brown Prof. E. N. Carabateas Prof. S. I. Freedman Prof. W. H. Heiser Prof. M. A. Hoffman Prof. W. D. Jackson Prof. J. L. Kerrebrock Prof. J. R. Melcher Prof. J. P. Penhune Prof. A. H. Shapiro Prof. R. E. Stickney Prof. H. H. Woodson M. T. Badrawi A. N. Chandra R. S. Cooper J. M. Crowley D. A. East J. R. Ellis, Jr. J. Gerstmann N. Gothard J. B. Heywood H. D. Jordan P. G. Katona F. D. Ketterer G. B. Kliman H. C. Koons M. F. Koskinen R. F. Lercari W. H. Levison A. T. Lewis H. C. McClees, C. W. Marble T. D. Masek J. S. J. C. E. D. M. C. A. M. M. P. R. G. Jr. J. B. T. Musselwhite A. Okereke H. Olsen R. Phipps, Jr. S. Pierson H. Pruslin H. Reid W. Rook, Jr. W. Rowe R. Sarraquigne Shroff M. Spira Toschi L. Wilson C. Wissmiller M. Zuckerman

[1]  Irving Granet,et al.  SOME SELECTED PROPERTIES OF CESIUM , 2009 .

[2]  R. Sudan Interaction of a Conducting Fluid Stream with a Traveling Wave of Magnetic Field of Finite Extension , 1963 .

[3]  J. Melcher Electrohydrodynamic Surface Resonators , 1962 .

[4]  P. Lykoudis,et al.  MEASUREMENTS OF SKIN FRICTION FOR TURBULENT MAGNETOFLUIDMECHANIC CHANNEL FLOW , 1962 .

[5]  W. D. Jackson,et al.  ELECTRODELESS MHD GENERATOR RESEARCH. PART I. THEORETICAL ANALYSIS , 1962 .

[6]  W. D. Weatherford,et al.  PROPERTIES OF INORGANIC ENERGY-CONVERSION AND HEAT-TRANSFER FLUIDS FOR SPACE APPLICATIONS , 1961 .

[7]  J. Melcher Electrohydrodynamic and magnetohydrodynamic surface waves and instabilities , 1961 .

[8]  Thomas S. Lundgren,et al.  Duct flow in magnetohydrodynamics , 1961 .

[9]  L. Harris Hydromagnetic Channel Flows , 1960 .

[10]  George F. Smith Thermionic and Surface Properties of Tungsten Crystals , 1954 .

[11]  W. Murgatroyd,et al.  CXLII. Experiments on magneto-hydrodynamic channel flow , 1953 .

[12]  J. A. Shercliff Steady motion of conducting fluids in pipes under transverse magnetic fields , 1953, Mathematical Proceedings of the Cambridge Philosophical Society.

[13]  H. S. Green,et al.  A Kinetic Theory of Liquids , 1947, Nature.

[14]  M. H. Nichols The Thermionic Constants of Tungsten as a Function of Crystallographic Direction , 1940 .

[15]  S. T. Martin On the Thermionic and Adsorptive Properties of the Surfaces of a Tungsten Single Crystal , 1939 .

[16]  H. J.,et al.  Hydrodynamics , 1924, Nature.

[17]  W. D. Jackson,et al.  THE MHD INDUCTION MACHINE , 1966 .

[18]  G. D. Parfitt,et al.  Surface Science , 1965, Nature.

[19]  W. D. Jackson,et al.  Design considerations for MHD induction generators , 1964 .

[20]  H. Woodson Magnetohydrodynamic power generation , 1963 .

[21]  W. Martini Theoretical calculation of the thermal conductivity of cesium vapor at thermionic temperatures , 1963 .

[22]  S. Kitrilakis,et al.  EXPERIMENTAL DETERMINATION OF THE HEAT CONDUCTION OF CESIUM GAS , 1963 .

[23]  H. Webster Thermionic Emission from a Tantalum Crystal in Cesium or Rubidium Vapor , 1961 .

[24]  C. B. Jackson,et al.  Liquid metals handbook : sodium (Nak) supplement , 1955 .

[25]  ARTHUR SCHUSTER,et al.  The Kinetic Theory of Gases , 1895, Nature.

[26]  M. Muir Physical Chemistry , 1888, Nature.