To calculate the reaction is reactant or product favored at equliribrium at 298 K and the reaction is more or less product favored at higher temperature. Concept introduction: The Δ S ∘ ( system ) can be calculated by the following expression, Δ S ∘ ( system ) = Δ r S ° = ∑ n S ° ( products ) − ∑ n S ° ( reactants ) Enthalpy of formation of the reaction can be calculated by following expression, Δ r H ° = ∑ n Δ f H ° ( products ) − ∑ n Δ f H ° ( reactants ) The Gibbs free energy or the free energy change is a thermodynamic quantity represented by Δ G ∘ . It is related to entropy and entropy by the following expression, Δ G ∘ = Δ H ∘ − T Δ S ∘ Here, Δ r H ∘ is the enthalpy change for the reaction. If the value of Δ r G ∘ is negative the reaction is product favored at equilibrium at 298 K .

Question

Want to see the full answer?

Answer 1

Question

Chapter 21, Problem 113GQ

Interpretation Introduction

Interpretation:

To calculate the reaction is reactant or product favored at equliribrium at 298 K and the reaction is more or less product favored at higher temperature.

Concept introduction:

The ΔS∘ (system) can be calculated by the following expression,

ΔS∘ (system)=ΔrS°=∑nS°(products)−∑nS°(reactants)

Enthalpy of formation of the reaction can be calculated by following expression,

ΔrH°=∑nΔfH°(products)−∑nΔfH°(reactants)

The Gibbs free energy or the free energy change is a thermodynamic quantity represented by ΔG∘. It is related to entropy and entropy by the following expression,

ΔG∘=ΔH∘−TΔS∘

Here, ΔrH∘ is the enthalpy change for the reaction.

If the value of ΔrG∘ is negative the reaction is product favored at equilibrium at 298 K.

Expert Solution & Answer

Want to see the full answer?

Check out a sample textbook solution

See solution

Students have asked these similar questions

Don't used Ai solution

Are lattice defects and crystal defects the same thing?

Don't used Ai solution

Answer 2

Question

Chapter 21, Problem 113GQ

Interpretation Introduction

Interpretation:

To calculate the reaction is reactant or product favored at equliribrium at 298 K and the reaction is more or less product favored at higher temperature.

Concept introduction:

The ΔS∘ (system) can be calculated by the following expression,

ΔS∘ (system)=ΔrS°=∑nS°(products)−∑nS°(reactants)

Enthalpy of formation of the reaction can be calculated by following expression,

ΔrH°=∑nΔfH°(products)−∑nΔfH°(reactants)

The Gibbs free energy or the free energy change is a thermodynamic quantity represented by ΔG∘. It is related to entropy and entropy by the following expression,

ΔG∘=ΔH∘−TΔS∘

Here, ΔrH∘ is the enthalpy change for the reaction.

If the value of ΔrG∘ is negative the reaction is product favored at equilibrium at 298 K.

Expert Solution & Answer

Want to see the full answer?

Check out a sample textbook solution

See solution

Answer 3

Question

Chapter 21, Problem 113GQ

Interpretation Introduction

Interpretation:

To calculate the reaction is reactant or product favored at equliribrium at 298 K and the reaction is more or less product favored at higher temperature.

Concept introduction:

The ΔS∘ (system) can be calculated by the following expression,

ΔS∘ (system)=ΔrS°=∑nS°(products)−∑nS°(reactants)

Enthalpy of formation of the reaction can be calculated by following expression,

ΔrH°=∑nΔfH°(products)−∑nΔfH°(reactants)

The Gibbs free energy or the free energy change is a thermodynamic quantity represented by ΔG∘. It is related to entropy and entropy by the following expression,

ΔG∘=ΔH∘−TΔS∘

Here, ΔrH∘ is the enthalpy change for the reaction.

If the value of ΔrG∘ is negative the reaction is product favored at equilibrium at 298 K.

Expert Solution & Answer

Want to see the full answer?

Check out a sample textbook solution

See solution

Answer 4

Question

Chapter 21, Problem 113GQ

Interpretation Introduction

Interpretation:

To calculate the reaction is reactant or product favored at equliribrium at 298 K and the reaction is more or less product favored at higher temperature.

Concept introduction:

The ΔS∘ (system) can be calculated by the following expression,

ΔS∘ (system)=ΔrS°=∑nS°(products)−∑nS°(reactants)

Enthalpy of formation of the reaction can be calculated by following expression,

ΔrH°=∑nΔfH°(products)−∑nΔfH°(reactants)

The Gibbs free energy or the free energy change is a thermodynamic quantity represented by ΔG∘. It is related to entropy and entropy by the following expression,

ΔG∘=ΔH∘−TΔS∘

Here, ΔrH∘ is the enthalpy change for the reaction.

If the value of ΔrG∘ is negative the reaction is product favored at equilibrium at 298 K.

Expert Solution & Answer

Want to see the full answer?

Check out a sample textbook solution

See solution

Answer 5

Chapter 21, Problem 113GQ

Interpretation Introduction

Interpretation:

To calculate the reaction is reactant or product favored at equliribrium at 298 K and the reaction is more or less product favored at higher temperature.

Concept introduction:

The ΔS∘ (system) can be calculated by the following expression,

ΔS∘ (system)=ΔrS°=∑nS°(products)−∑nS°(reactants)

Enthalpy of formation of the reaction can be calculated by following expression,

ΔrH°=∑nΔfH°(products)−∑nΔfH°(reactants)

The Gibbs free energy or the free energy change is a thermodynamic quantity represented by ΔG∘. It is related to entropy and entropy by the following expression,

ΔG∘=ΔH∘−TΔS∘

Here, ΔrH∘ is the enthalpy change for the reaction.

If the value of ΔrG∘ is negative the reaction is product favored at equilibrium at 298 K.

Answer 6

Chapter 21, Problem 113GQ

Interpretation Introduction

Interpretation:

To calculate the reaction is reactant or product favored at equliribrium at 298 K and the reaction is more or less product favored at higher temperature.

Concept introduction:

The ΔS∘ (system) can be calculated by the following expression,

ΔS∘ (system)=ΔrS°=∑nS°(products)−∑nS°(reactants)

Enthalpy of formation of the reaction can be calculated by following expression,

ΔrH°=∑nΔfH°(products)−∑nΔfH°(reactants)

The Gibbs free energy or the free energy change is a thermodynamic quantity represented by ΔG∘. It is related to entropy and entropy by the following expression,

ΔG∘=ΔH∘−TΔS∘

Here, ΔrH∘ is the enthalpy change for the reaction.

If the value of ΔrG∘ is negative the reaction is product favored at equilibrium at 298 K.

Answer 7

Chapter 21, Problem 113GQ

Interpretation Introduction

Interpretation:

To calculate the reaction is reactant or product favored at equliribrium at 298 K and the reaction is more or less product favored at higher temperature.

Concept introduction:

The ΔS∘ (system) can be calculated by the following expression,

ΔS∘ (system)=ΔrS°=∑nS°(products)−∑nS°(reactants)

Enthalpy of formation of the reaction can be calculated by following expression,

ΔrH°=∑nΔfH°(products)−∑nΔfH°(reactants)

The Gibbs free energy or the free energy change is a thermodynamic quantity represented by ΔG∘. It is related to entropy and entropy by the following expression,

ΔG∘=ΔH∘−TΔS∘

Here, ΔrH∘ is the enthalpy change for the reaction.

If the value of ΔrG∘ is negative the reaction is product favored at equilibrium at 298 K.

Answer 8

Expert Solution & Answer

Answer 9

Expert Solution & Answer

Answer 10

Want to see the full answer?

Check out a sample textbook solution

See solution

Answer 11

Ch. 21.2 - Prob. 21.1CYU Ch. 21.2 - Write the formula for each of the following (a)...Ch. 21.2 - Prob. 21.3CYU Ch. 21.2 - Prob. 21.4CYU Ch. 21.11 - Prob. 1.1ACP Ch. 21.11 - Prob. 1.2ACP Ch. 21.11 - Prob. 1.3ACP Ch. 21.11 - Draw the Lewis structure of ammonia borane. What...Ch. 21.11 - Calculate the mass of hydrogen in 1.00 kg of...Ch. 21.11 - What is the hydrogen density (mass H2 per liter)...

Solution Summary: The author explains that the Gibbs free energy is a thermodynamic quantity represented by DeltaGcirc.

Concept explainers

Videos

Want to see the full answer?

Chapter 21 Solutions