Textbook Question
Calculate ∆G°, ∆H°, and ∆S° for the following acid–base reactions. Rationalize the value of ∆H° based on the structure of the conjugate bases. [Assume T = 298 K.]
(a)
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6. Thermodynamics and Kinetics
Gibbs Free Energy
Back6. Thermodynamics and Kinetics
Gibbs Free Energy
- Textbook Question
Calculate ∆G°, ∆H°, and ∆S° for the following acid–base reactions. Rationalize the value of ∆H° based on the structure of the conjugate bases. [Assume T = 298 K.]
(c)
743views - Textbook Question
Write the rate law for the following reaction and identify which molecules are present in the rate-determining step. Draw a possible transition state and propose a mechanism.
480views - Textbook Question
Third-order reactions are rare. Why do you think that is?
623views - Textbook Question
For the following acid–base reaction, (d) calculate ∆G° at 298 K.
785views - Textbook Question
For the following acid–base reaction, (e) calculate ∆G° at 273 K.
594views - Textbook Question
For the following acid–base reaction, (f) calculate ∆G° at 373 K.
574views - Textbook Question
For each of the following acid–base reactions, (iii) calculate ∆G°. If a pKa is not one of the ten common ones we learned in Chapter 4, it will be given to you.
(a)
615views - Textbook Question
Using the bond-dissociation energies in Table 5.6 (see Section 5.3.1), estimate the equilibrium constant of the following reaction at 298 K.
716views - Textbook Question
For the following reactions we have not seen yet, which side, if either, would be favored by increasing the temperature?
(c)
568views - Textbook Question
For the following reactions we have not seen yet, which side, if either, would be favored by increasing the temperature?
(d)
683views - Textbook Question
For the following equilibrium processes and the corresponding ∆G°, calculate (i) Keq and (ii) the % composition of the equilibrium mixture (% reactants, % products) at 298 K.
(a)
591views - Textbook Question
For the following equilibrium processes and the corresponding ∆G°, calculate (i) Keq and (ii) the % composition of the equilibrium mixture (% reactants, % products) at 298 K.
(b)
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For each pair of reactions, predict which will happen more quickly.
[For (a) and (b), think about the stability of the bases involved.]
(a)
706views - Textbook Question
For the following equilibrium processes and the corresponding ∆G° , indicate whether you expect the equilibrium constant to be greater than, equal to, or less than 1. Justify your expectation in words.
(b)
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