For every factor of 10 difference in Keq' (e.g., going from 102 to 10, or from 10–3 to 10–4), what is the difference in standard free energy change, ΔG°' (kJ/mol)?

Question

asked Oct 6, 2021 113k views

2 Answers

← Prev Question Next Question →

Related questions

asked Apr 18, 2024 98.7k views

Indicate which factors affect the rate of a reaction. Select all that apply. 1) k 2) concentration 3) catalysts 4) ΔG° 5) temperature 6) ΔS° 7) ΔH° 8) Keq 9) Ea

Daye asked Apr 18, 2024

by Daye

7.7k points

1 answer

2 votes

98.7k views

asked Feb 2, 2024 179k views

When the ΔG°' of a chemical reaction is positive (K'eq < 1.0) under standard conditions, A) The reaction is spontaneous in the forward direction. B) The reaction is spontaneous in the reverse direction. C) The reaction is at equilibrium. D) The reaction is non-spontaneous.

Therightstuff asked Feb 2, 2024

by Therightstuff

8.4k points

1 answer

5 votes

179k views

asked Aug 28, 2024 228k views

When the ΔG°' of a chemical reaction is positive (K'eq < 1.0) under standard conditions, A. the reaction is exothermic. B. work can be done under these conditions. C. the reaction is spontaneous to the right. D. reactants and products are at equilibrium. E. reactants predominate over products.

Gerber asked Aug 28, 2024

by Gerber

8.4k points

1 answer

3 votes

228k views

Ask a Question

Mitul Nakum · Answer 1 · 2021-10-09T04:50:43+0000

Final answer:

For each factor of 10 change in Keq, there is a corresponding change of approximately 5.7 kJ/mol in standard free energy change, ΔG°', at standard biochemical conditions (298.15 K).

Step-by-step explanation:

For every factor of 10 difference in the equilibrium constant, Keq, there is a corresponding change in the standard free energy change, ΔG°', as calculated using the relationship between ΔG°' and Keq:

ΔG°' = -RT ln Keq, where R is the universal gas constant and T is the temperature in Kelvin.

Given that R = 8.314 J/mol·K and at standard biochemical conditions T = 298.15 K, a tenfold change in Keq results in a change of (8.314 J/mol·K x 298.15 K x ln(10)), which equates to approximately 5.7 kJ/mol. Therefore, for example, increasing Keq from 102 to 103 would decrease ΔG°' by 5.7 kJ/mol, making the reaction more product-favored under standard conditions. Conversely, decreasing Keq from 10-3 to 10-4 would increase ΔG°' by 5.7 kJ/mol, making the reaction less product-favored under standard conditions.

David Njuguna · Answer 2 · 2021-10-10T07:18:39+0000

Answer:

The standard free energy is the difference between that of products and reactants. The value of G has a greater influence on the reaction been considered.

Step-by-step explanation:

The Gibb's free energy also referred to as the gibb's function represented with letter G. it is the amount of useful work obtained from a system at constant temperature and pressure. The standard gibb's free energy on the other hand is a state function represented as Delta-G, as it depends on the initial and final states of the system. The spontaneity of a reaction is explained by the standard gibb's free energy.

If Delta-G = -ve ( the reaction is spontaneous)

if Delta -G = +ve ( the reaction is non-spontaneous)

if Delta-G = 0 ( the reaction is at equilibrium)

Use this hints for any reaction involving the Gibb's free, Enthalpy and entropy.

Please log in or register to add a comment.

Please log in or register to answer this question.

2 Answers

Final answer:

Step-by-step explanation:

Please log in or register to add a comment.

Please log in or register to add a comment.

Related questions

For every factor of 10 difference in Keq' (e.g., going from 102 to 10, or from 10–3 to 10–4), what is the difference in standard free energy change, ΔG°' (kJ/mol)?

Categories

Other Questions