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Reynolds, John

C. G. Overberger Joseph A. Pappalardo George A. Reynolds John D. Roberts T. F. Sanderson H. J. Scheifele, Jr. Louis H. Schwartzman J. T. Sellas Newton R. Smith W. T. Smith, Jr. [Pg.123]

Joseph P. Reynolds John S. Jeris Louis Theodore... [Pg.963]

Louis Theodore and Joseph Reynolds, John Wiley Sons. Inc.. 1987, ISBN 0471-84976-6, 463pages, 74.95. [Pg.84]

Conducting polymers. 2. Organic conductors. I. Reynolds, John R., 1956-II. Skotheim, Terje A.,... [Pg.1034]

Reynolds, John R. Zong, Kyukwan Stenger-Smith, John D. Anderson, Nicole Webber, Cynthia K. Chafin, Andrew P./ Secretary of the Navy representing U.S. [Pg.237]

John R. Reynolds Andrew D. Child University of Florida... [Pg.48]

Submitted by John J. Donleavy and Mearl A. KtSE. Checked by Reynold C. Fhson and William E. Ross... [Pg.63]

Reynolds, T. S. (1983). Stronger Than a Hundred Men A History of the Venical Water Wheel. Baltimore, MD Johns Hopkins Unmersity Press. [Pg.699]

John C. Berg, Andreas Acrivos, and Michel Boudart, Evaporation Convection H. M. Tsuchiya, A. G, Fredrickson, and R. Aiis, Dynamics of Microbial Cell Populations Samuel Sideman, Direct Contact Heat Transfer between Immiscible Liquids Howard Brenner, Hydrodynamic Resistance of Particles at Small Reynolds Numbers... [Pg.343]

The authors thank Energy and Environment Research Laboratories, Inc. for partial financial support We want to acknowledge Dr. Jih-Fen Kuo of Groundwater Technology, Inc. and Dr. John G. Reynolds of Lawrence Livermore National Lab for technical discussions. We also thank Dr. H.L. Wong and Mr. Leon Lemons for the preparation of this manuscript. [Pg.406]

Predicted Nusselt numbers for turbulent flow with constant wall heat flux (John Wiley and Sons from Bird et al., 1964). Abbreviations Nu = Nusselt number Re = Reynolds number Pr = Prandtl number. [Pg.51]

Reynolds, Warren L., Dimethyl Sulfoxide in Inorganic Chemistry Rifkind, J. M., see Venkatesh, B. Roesky, Herbert W., see Jagirdar, Balaji R. Roesky, Herbert W., see Witt, Michael Romerosa, Antonio, see Peruzzini, Maurizio Rothwell, Ian P. see Chisholm, Malcolm H. Rotzinger, Francois P., see Endicott, John F. 12 1... [Pg.637]

Evans, Albert Jaxa-Chamiec, Iain Mday, Stephen Pickett, Duncan Judd, Xiao Qing Lewell, Steve Watson, Derek Reynolds, Barry Ross, Mike Cory, Malcolm Weir and John Bradshaw. We would also like to thank Drake Eggleston for careful reading of the manuscript and helpful suggestions. [Pg.56]

Late Hans Thacher Clarke Late Carl Shipp Marvel Late Frank C. Whitmore Late Wallace H. Carothers Late William W. Hartman Late Carl R. Noller Late John R. Johnson Late L. F. Fieser Late Reynold C. Fuson Late John R. Johnson... [Pg.134]

John L Jefferies, Marianne Bergheim, and Reynolds Delgado... [Pg.129]

Edward L. Alpen John A. Auxier WiLijAM J. Bair Victor P. Bond Reynold F. Brown Melvin C. Carter Randaj.l S. Caswell Frederick P. Cowan James F. Crow Gerald D. Dodd Patricia W. Durbin Merrill Eisenbud Thomas S, Ely... [Pg.44]

Short-lived radionuclides are those with half-lives sufficiently short that any atoms present in the early solar system would have completely decayed away. In 1960, John Reynolds found the first clear evidence that short-lived nuclides were present in the form of large excesses of Xe, the decay product of short-lived I, in chondritic meteorites. This discovery showed that elements had been synthesized in stars shortly before the formation of the solar system. A more important short-lived radionuclide, 26A1, was demonstrated to have been present in meteorites by Typhoon Lee and coworkers in... [Pg.13]

When 129I was first shown by John Reynolds to be present in the early solar system (Reynolds, 1960), he quickly realized that the inferred initial ratio for the solar system ( 1 x 10-4) was well below that expected from stellar nucleosynthesis ( 1). He proposed a period of free decay between the last input of newly synthesized material and the formation of the solar system to explain the low observed ratio and estimated the free decay time at 3 x 108 years. As more realistic models of the expected abundances of radionuclides in interstellar space were developed, this interval decreased to 108 years. The curved solid lines in Figure 9.5 show the effect on the steady-state abundances of short-lived radionuclides of free decay intervals of 5 x 107 and 108 years. Nuclides with mean lives of less than 5 Myr would have completely decayed away. Thus, when Lee et al. (1977) discovered 26Al and... [Pg.312]

W. L. Reynolds, in S. J. Lippard, ed., Progress in Inorganic Chemisty, Vol. 12, Interscience Publishers, a division of John Wiley Sons, Inc., New... [Pg.113]

See other pages where Reynolds, John is mentioned: [Pg.6]    [Pg.256]    [Pg.446]    [Pg.6]    [Pg.256]    [Pg.446]    [Pg.477]    [Pg.113]    [Pg.161]    [Pg.257]    [Pg.368]    [Pg.102]    [Pg.291]    [Pg.639]    [Pg.233]    [Pg.223]    [Pg.423]    [Pg.13]    [Pg.14]    [Pg.122]    [Pg.123]    [Pg.282]    [Pg.315]    [Pg.103]    [Pg.317]   
See also in sourсe #XX -- [ Pg.13 , Pg.122 , Pg.123 , Pg.282 , Pg.312 ]



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