Cambridge University Press / MIT Press / Andrew / Oxford University Press / Macmillan / /
Country
France / Canada / United Kingdom / / /
Facility
University of Waterloo / University of Paris / /
IndustryTerm
dissipated energy / threshold energy flow rate / dissipative energy flow function / sufficient free energy resources / energy efficiency constraint / free energy stores / unit mass energy throughput / physical and biological systems / mass flow chemical affinity / Maximum energy efficiency / free energy / energy flow / energy gradient dissipation / energy throughput / energy density / poor energy efficiency / abundant energy / energy density flow rate / particular systems / energy supply / convective energy flows / energy gradient / energy / energy utilization / local energy gradient dissipation / heat energy / energy dissipation / energy dissipative system / energy flows / energy gradients / free energy gradient dissipation / gross energy throughput / natural media / material systems / waste products / less energy / energy efficiency / greater energy / causal systems / increased energy throughput / less energy efficiency / rates entailing energy / human dissipative systems / greater energy throughput / increasing energy flows / /
Movie
Paris / France / /
Organization
Cambridge University / MIT / University of Paris / Paris / University of Waterloo / National Academy of Sciences / City University of New York / Binghamton University / Oxford University / Royal Society / /
Person
G.K. Taylor / Christopher Southgate / R.J. Bomphrey / Dominik E. Uehlinger Allometric / J.S. Shiner / John Collier / S.M. Walker / James J. Kay / Malcolm Dean / Henri Les Tourbillons Cellulaires / Robinson / Arto Annila / A.L.R. Thomas / Bob Ulanowicz / Schneider / William Stanley / Biology / /
Position
Scientist / General / Professor Emeritus / General Systems Bulletin vol. / /