If a particular polymerization reaction happened to be endothermic, how could it ever take placeand where would the increase in the entropy of the universe have to arise should be explained. Concept introduction: Entropy is an amount of the unapproachable energy in a closed thermodynamic system which is generally considered as a measure of the disorder of the system, which is a property of the state of the system, and that changes precisely with any reversible change in heat of the system and inversely with the temperature of the system; broadly: the level of disorder or instability in a system.
If a particular polymerization reaction happened to be endothermic, how could it ever take placeand where would the increase in the entropy of the universe have to arise should be explained. Concept introduction: Entropy is an amount of the unapproachable energy in a closed thermodynamic system which is generally considered as a measure of the disorder of the system, which is a property of the state of the system, and that changes precisely with any reversible change in heat of the system and inversely with the temperature of the system; broadly: the level of disorder or instability in a system.
Solution Summary: The author explains that entropy is an amount of the unapproachable energy in a closed thermodynamic system.
Definition Definition Chemical process in which one or more monomers combine to produce a very large chain-like molecule called a polymer. The functional groups present on the monomers and their steric effects are responsible for polymerization through a sequence of reactions that vary in complexity. There exists a stable covalent chemical bond between monomers that sets apart polymerization from other processes.
Chapter 10, Problem 10.64PAE
Interpretation Introduction
Interpretation:
If a particular polymerization reaction happened to be endothermic, how could it ever take placeand where would the increase in the entropy of the universe have to arise should be explained.
Concept introduction:
Entropy is an amount of the unapproachable energy in a closed thermodynamic system which is generally considered as a measure of the disorder of the system, which is a property of the state of the system, and that changes precisely with any reversible change in heat of the system and inversely with the temperature of the system; broadly: the level of disorder or instability in a system.
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The Laws of Thermodynamics, Entropy, and Gibbs Free Energy; Author: Professor Dave Explains;https://www.youtube.com/watch?v=8N1BxHgsoOw;License: Standard YouTube License, CC-BY