San Francisco / Boston / New York / Paris / Philadelphia / Atlanta / London / Chicago / /
Company
Hess / /
Country
United Kingdom / Greece / / /
Event
Person Communication and Meetings / Man-Made Disaster / /
Facility
Faraday Building / University of Manchester / University of Edinburgh / /
IndustryTerm
chemical equations / chemical and physical change / chemical change / free energy change / thermodynamic state function internal energy / chemical engineering / chemical equilibrium / chemical revolution / free energy / free energy difference / chemical thermodynamics / metal oxide / chemical poGibbs / molecular chemical equation / nitrogen gas / chemical potential / chemical equation / unavailable energy depending / chemical reaction / energy difference / air metal / energy content / earliest chemical reactions / energy / metal / fixed air metal / entropic energy / chemical reactions / chemical potential nomenclature / early chemical equations / electricity / i.e. energy/mass / energy balances / physical and chemical change / chemical changes / internal energy / inverse square law / chemical revolutions / chemical / chemicals / empirical 1st law / appropriate balance law / /
Organization
French Academy / Batley Grammar School / Priestley Society / University of Edinburgh / University of Manchester / Parish Church / /
Person
Antoine Lavoisier / Dalton Hess Gibbs / Georg Ernst Stahl / Joseph Priestley / Thomas Dobson / J. Willard Gibbs / J. W. Gibbs / Joseph Black / Leslie V. Woodcock / Stephen Hawking / /
Position
scientist / chief / mathematician and engineer / AUTHOR / Chairman / natural scientist / first physical chemist / Professor of Chemical Thermodynamics / chemist / Professor of Chemical Thermodynamics in England / /