A. Derive an equation from first principles that shows how the maximum non-expansion work in a re...
A. Derive an equation from first principles that shows how the maximum non-expansion work in a reversible isothermal-isobaric process depends on Gibbs free energy and hence chemical potential B. Using you derivation, show how the standard potential of an electrochemical reaction relates to the change in Gibbs free energy and the work done by the system 10P 2. A. Define both chemical potential and activity coefficient. B. Explain why it necessary to use activity coefficients when discussing ionic solutions? Within your answer, you should briefly explain (1) Raoult's law (2) ionic atmosphere, columbic interactions and Debeye-Huckle Theory 10P
A. Derive an equation from first principles that shows how the maximum non-expansion work in a reversible isothermal-isobaric process depends on Gibbs free energy and hence chemical potential B. Using you derivation, show how the standard potential of an electrochemical reaction relates to the change in Gibbs free energy and the work done by the system 10P 2. A. Define both chemical potential and activity coefficient. B. Explain why it necessary to use activity coefficients when discussing ionic solutions? Within your answer, you should briefly explain (1) Raoult's law (2) ionic atmosphere, columbic interactions and Debeye-Huckle Theory 10P