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Chapter 20: Q20.65 P (page 918)

How is the free energy change of a process related to the work that can be obtained from the process? Is this quantity of work obtainable in practice? Explain.

Short Answer

Expert verified

If the process is run is in a slower or more controlled fashion, the actual amount of available work approaches ΔG.

Step by step solution

01

Definition of Concept

Solubility: The maximum amount of solute that can be dissolved in the solvent at equilibrium is defined as solubility.

Constant of soluble product: For equilibrium between solids and their respective ions in a solution, the solubility product constant is defined. In general, the term "solubility product" refers to water-equilibrium insoluble or slightly soluble ionic substances.

02

Explain how is the free energy change of a process related to the work that can be obtained from the process  

The maximum useful work obtained from a spontaneous process is ΔG. Due to energy lost as heat, the actual amount of useful work is less.

The actual amount of available work approaches if the process is run at a slower or more controlled rate ΔG.

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Most popular questions from this chapter

Why isSvapof a substance always larger than Sfus.

Without consulting Appendix B, arrange each group in order of decreasing standard molar entropy (S°). Explain.

(a) ClO4-(aq), ClO2-(aq), ClO3-(aq)

(b) NO2(g), NO(g), N2(g)

(c) Fe2O3(s), Al2O3(s), Fe3O4(s).

In the process of respiration, glucose is oxidized completely. In fermentation, O2is absent and glucose is broken down to ethanol and CO2. Ethanol is oxidized to CO2and H2O.

  1. Balance the following equations for these processes:

Respiration:C6H12O6(s)+O2(g)CO2(g)+H2O(l)

Fermentation:C6H12O6(s)C2H5OH(l)+CO2(g)

Ethanol oxidation:C2H5OH(l)+O2(g)CO2(g)+H2O(l)

  1. Calculate ΔGrxnofor respiration of 1.00gglucose.
  2. Calculate ΔGrxnofor fermentation of 1.00gglucose.
  3. Calculate ΔGrxnofor oxidation of the ethanol from part (c).

CalculateΔG° for each reaction usingΔGf° values:

(a)H2(g)+I2(s)2HI(g)

(b)MnO2(s)+2CO(g)Mn(s)+2CO2(g)

(c)NH4Cl(s)NH3(g)+HCl(g)

A chemical reaction, such as HI forming from its elements, can reach equilibrium at many temperatures. In contrast, a phase change, such as ice melting, is in equilibrium at a given pressure only at the melting point. Each of the graphs below depicts Gsysvs. extent of change.

(a) Which graph depicts how Gsyschanges for the formation of HI? Explain.

(b) Which graph depicts how Gsyschanges as ice melts at 1°Cand 1atm? Explain.
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