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A 2015 screen shot of Libb Thims explaining "energy coupling" explaining how some process in nature are "exergonic", or work energy releasing, and others are "endergonic" or work energy absorbing (or requiring), to a group of Chicago children, in respect to morality and and the two types of marriage relationships, namely: natural and unnatural, withing the framework of how ATP (exergonic) powers muscles (endergonic) via coupling mechanism.[1]

In terms, exergonic (TR:5) (LH:8) (TL:13), from Greek exo-, meaning: “turning out”, + -ergon, meaning: “work”, + -ic, meaning: "of or related to", is a reaction or process that produces or releases energy in the form of work, quantified by a negative change in Gibbs energy (ΔG < 0) for the process.


The following are quotes:

“For a total process it is impossible to escape the rigorous requirement that the total free energy change, at constant pressure and temperature, must be negative if the process is to go. Such spontaneous processes (ΔG negative) have been termed ‘exergonic’ by Charles Coryell [1940], in analogy to the term exothermic for processes in which ΔH is negative. A process which taken alone would be endergonic (ΔG positive), and therefore thermodynamically forbidden, may nevertheless proceed if it is coupled with another process which is so highly exergonic that the total value of ΔG for the combined reaction is negative. Such coupled reactions are of profound importance in biochemistry. The supply of free energy in many coupled biochemical reactions is provided by the hydrolysis of adenosine triphosphate (ATP) to adenosine diphosphate (ADP) and inorganic phosphate.”
John Edsall (1958), Biophysical Chemistry (co-author: Jeffries Wyman) (pg. 210) [2]

End matter

See also


  1. Thims, Libb. (2015). “Chemical Morality: Natural vs Forced arrangements” (YT), Atheism for Kids, Lecture 11 (co-host: Thor), Chicago, Aug 10; Atheism Reviews, Sep 7.
  2. Edsall, John T. and Wyman, Jeffries. (1958). Biophysical Chemistry: Thermodynamics, Electrostatics, and the Biological Significance of the Properties of Matter (pg. 210). Academic Press.

External links

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