EBK GENERAL CHEMISTRY
EBK GENERAL CHEMISTRY
11th Edition
ISBN: 9780133400588
Author: Bissonnette
Publisher: VST
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Chapter 13, Problem 61E
Interpretation Introduction

(a)

Interpretation:

For the given reaction, the value of ΔrS° at 298 K needs to be calculated.

2NaHCO3(s)Na2CO3(s)+H2O(l)+CO2(g)

Concept introduction:

The Gibb’s equation of thermodynamic purposed a relation between ΔS, ΔH and ΔG with temperature. The mathematical expression of Gibb’s equation can be written as:

ΔrG° =  ΔrH° - TΔrS° 

Here,  ΔrH° and ΔrS°  can be calculated with help of given equation:

ΔrH° =  ΔrH°(product) - ΔrH°(reactant) ΔrS° =  ΔrS°(product) -  ΔrS°(reactant) 

For 298 K, the value of ΔrG°  can also be calculated using the following relation:

ΔrG° = ΔrG°(product)- ΔrG°(reactant)

Interpretation Introduction

(b)

Interpretation:

For the given reaction, the value of ΔrH° at 298 K needs to be calculated.

2NaHCO3(s)Na2CO3(s)+H2O(l)+CO2(g)

Concept introduction:

The Gibb’s equation of thermodynamic purposed a relation between ΔS, ΔH and ΔG with temperature. The mathematical expression of Gibb’s equation can be written as:

ΔrG° =  ΔrH° - TΔrS° 

Here,  ΔrH° and ΔrS°  can be calculated with help of given equation:

ΔrH° =  ΔrH°(product) - ΔrH°(reactant) ΔrS° =  ΔrS°(product) -  ΔrS°(reactant) 

For 298 K, the value of ΔrG°  can also be calculated using the following relation:

ΔrG° = ΔrG°(product)- ΔrG°(reactant)

Kp or Kc are the equilibrium constants for the reaction which are ratio of gaseous and aqueous products to the reactant molecules. The relation between equilibrium constant and ΔrG° can be written as:

ΔrG° = - 2.303 RT log K

Here:

  • R = 8.314 J / mol K
  • T = temperature in Kelvin

Interpretation Introduction

(c)

Interpretation:

For the given reaction, the value of ΔrG° at 298 K needs to be calculated.

2NaHCO3(s)Na2CO3(s)+H2O(l)+CO2(g)

Concept introduction:

The Gibb’s equation of thermodynamic purposed a relation between ΔS, ΔH and ΔG with temperature. The mathematical expression of Gibb’s equation can be written as:

ΔrG° =  ΔrH° - TΔrS° 

Here,  ΔrH° and ΔrS°  can be calculated with help of given equation:

ΔrH° =  ΔrH°(product) - ΔrH°(reactant) ΔrS° =  ΔrS°(product) -  ΔrS°(reactant) 

For 298 K, the value of ΔrG°  can also be calculated using the following relation:

ΔrG° = ΔrG°(product)- ΔrG°(reactant)

Kp or Kc are the equilibrium constants for the reaction which are ratio of gaseous and aqueous products to the reactant molecules. The relation between equilibrium constant and ΔrG° can be written as:

ΔrG° = - 2.303 RT log K

Here:

  • R = 8.314 J / mol K
  • T = temperature in Kelvin

Interpretation Introduction

(d)

Interpretation:

For the given reaction, the value of equilibrium constant K at 298 K needs to be calculated.

2NaHCO3(s)Na2CO3(s)+H2O(l)+CO2(g)

Concept introduction:

The Gibb’s equation of thermodynamic purposed a relation between ΔS, ΔH and ΔG with temperature. The mathematical expression of Gibb’s equation can be written as:

ΔrG° =  ΔrH° - TΔrS° 

Here,  ΔrH° and ΔrS°  can be calculated with help of given equation:

ΔrH° =  ΔrH°(product) - ΔrH°(reactant) ΔrS° =  ΔrS°(product) -  ΔrS°(reactant) 

For 298 K, the value of ΔrG°  can also be calculated using the following relation:

ΔrG° = ΔrG°(product)- ΔrG°(reactant)

With the help of this equation one can predict the change in ΔS, ΔH and ΔG.

The Kp or Kc are the equilibrium constants for the reaction which are ratio of gaseous and aqueous products to the reactant molecules. The relation between equilibrium constant and ΔrG° can be written as:

ΔrG° = - 2.303 RT log K

Here:

  • R = 8.314 J / mol K
  • T = temperature in Kelvin

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Chapter 13 Solutions

EBK GENERAL CHEMISTRY

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