The values of ΔH o ,ΔS o &ΔG o for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔG o =ΔH o -TΔS o . The given reaction is, The oxidation of magnetite to hematite: 2Fe 3 O 4 ( s ) +O 2 ( g ) → 3Fe 2 O 3 ( s )

Question

Want to see the full answer?

Answer 1

Question

Chapter 4, Problem 4J.9E

(a)

Interpretation Introduction

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The oxidation of magnetite to hematite: 2Fe3O4(s)+O2(g)→3Fe2O3(s)

(b)

Interpretation Introduction

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The dissolution of CaF2 in water: CaF2(s)→CaF2(aq)

(c)

Interpretation Introduction

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The dimerization of NO2 : 2NO2(g)→N2O4(g)

Expert Solution & Answer

Want to see the full answer?

Check out a sample textbook solution

See solution

Students have asked these similar questions

Identify the structure of the PTH derivative generated after two rounds of Edman degradation.

Use the data below from an electron impact mass spectrum of a pure compound to deduce its structure. Draw your structure in the drawing window. Data selected from the NIST WebBook, https://webbook.nist.gov/chemistry/ m/z Relative intensity 31 0.5 30 26 29 22 28 100 27 33 26 23 15 4 • You do not have to consider stereochemistry. You do not have to explicitly draw H atoms. • In cases where there is more than one answer, just draw one. 妊 n ? Previous Next

for this question. Write the molecular formula for a compound with the possible elements C, H, N and O that exhibits a molecular ion at M+ = 98.1106. Exact Masses of the Most Abundant Isotope of Selected Elements Isotope Natural abundance (%) Exact mass 1H 99.985 1.008 12C 98.90 12.000 14N 99.63 14.003 160 99.76 15.995 Molecular formula (In the order CHNO, with no subscripts)

Answer 2

Question

Chapter 4, Problem 4J.9E

(a)

Interpretation Introduction

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The oxidation of magnetite to hematite: 2Fe3O4(s)+O2(g)→3Fe2O3(s)

(b)

Interpretation Introduction

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The dissolution of CaF2 in water: CaF2(s)→CaF2(aq)

(c)

Interpretation Introduction

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The dimerization of NO2 : 2NO2(g)→N2O4(g)

Expert Solution & Answer

Want to see the full answer?

Check out a sample textbook solution

See solution

Answer 3

Question

Chapter 4, Problem 4J.9E

(a)

Interpretation Introduction

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The oxidation of magnetite to hematite: 2Fe3O4(s)+O2(g)→3Fe2O3(s)

(b)

Interpretation Introduction

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The dissolution of CaF2 in water: CaF2(s)→CaF2(aq)

(c)

Interpretation Introduction

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The dimerization of NO2 : 2NO2(g)→N2O4(g)

Expert Solution & Answer

Want to see the full answer?

Check out a sample textbook solution

See solution

Answer 4

Question

Chapter 4, Problem 4J.9E

(a)

Interpretation Introduction

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The oxidation of magnetite to hematite: 2Fe3O4(s)+O2(g)→3Fe2O3(s)

(b)

Interpretation Introduction

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The dissolution of CaF2 in water: CaF2(s)→CaF2(aq)

(c)

Interpretation Introduction

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The dimerization of NO2 : 2NO2(g)→N2O4(g)

Expert Solution & Answer

Want to see the full answer?

Check out a sample textbook solution

See solution

Answer 5

Chapter 4, Problem 4J.9E

(a)

Interpretation Introduction

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The oxidation of magnetite to hematite: 2Fe3O4(s)+O2(g)→3Fe2O3(s)

(b)

Interpretation Introduction

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The dissolution of CaF2 in water: CaF2(s)→CaF2(aq)

(c)

Interpretation Introduction

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The dimerization of NO2 : 2NO2(g)→N2O4(g)

Answer 6

Chapter 4, Problem 4J.9E

(a)

Interpretation Introduction

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The oxidation of magnetite to hematite: 2Fe3O4(s)+O2(g)→3Fe2O3(s)

Answer 7

Chapter 4, Problem 4J.9E

(a)

Interpretation Introduction

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The oxidation of magnetite to hematite: 2Fe3O4(s)+O2(g)→3Fe2O3(s)

Answer 8

(b)

Interpretation Introduction

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The dissolution of CaF2 in water: CaF2(s)→CaF2(aq)

Answer 9

(b)

Interpretation Introduction

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The dissolution of CaF2 in water: CaF2(s)→CaF2(aq)

Answer 10

(c)

Interpretation Introduction

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The dimerization of NO2 : 2NO2(g)→N2O4(g)

Answer 11

(c)

Interpretation Introduction

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The dimerization of NO2 : 2NO2(g)→N2O4(g)

Answer 12

Expert Solution & Answer

Answer 13

Expert Solution & Answer

Answer 14

Want to see the full answer?

Check out a sample textbook solution

See solution

Answer 15

Ch. 4 - Prob. 4A.1AST Ch. 4 - Prob. 4A.1BST Ch. 4 - Prob. 4A.2AST Ch. 4 - Prob. 4A.2BST Ch. 4 - Prob. 4A.3AST Ch. 4 - Prob. 4A.3BST Ch. 4 - Prob. 4A.4AST Ch. 4 - Prob. 4A.4BST Ch. 4 - Prob. 4A.1E Ch. 4 - Prob. 4A.2E

The values of ΔH o ,ΔS o &ΔG o for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔG o =ΔH o -TΔS o . The given reaction is, The oxidation of magnetite to hematite: 2Fe 3 O 4 ( s ) +O 2 ( g ) → 3Fe 2 O 3 ( s )

Solution Summary: The author explains the enthalpy of Gibb's free energy by using the relation.

Videos

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The oxidation of magnetite to hematite: 2Fe3O4(s)+O2(g)→3Fe2O3(s)

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The dissolution of CaF2 in water: CaF2(s)→CaF2(aq)

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The dimerization of NO2 : 2NO2(g)→N2O4(g)

Want to see the full answer?

Chapter 4 Solutions

The values of ΔH o ,ΔS o &amp;ΔG o for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔG o =ΔH o -TΔS o . The given reaction is, The oxidation of magnetite to hematite: 2Fe 3 O 4 ( s ) +O 2 ( g ) → 3Fe 2 O 3 ( s )

Solution Summary: The author explains the enthalpy of Gibb's free energy by using the relation.

Videos

Interpretation: The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo. The given reaction is, The oxidation of magnetite to hematite: 2Fe3O4(s)+O2(g)→3Fe2O3(s)

Interpretation: The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo. The given reaction is, The dissolution of CaF2 in water: CaF2(s)→CaF2(aq)

Interpretation: The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo. The given reaction is, The dimerization of NO2 : 2NO2(g)→N2O4(g)

Want to see the full answer?

Chapter 4 Solutions

The values of ΔH o ,ΔS o &ΔG o for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔG o =ΔH o -TΔS o . The given reaction is, The oxidation of magnetite to hematite: 2Fe 3 O 4 ( s ) +O 2 ( g ) → 3Fe 2 O 3 ( s )

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The oxidation of magnetite to hematite: 2Fe3O4(s)+O2(g)→3Fe2O3(s)

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The dissolution of CaF2 in water: CaF2(s)→CaF2(aq)

Interpretation:

The values of ΔHo,ΔSo &ΔGo for the given reaction has to be given and the value of formation of Gibb’s free energy is confirmed by using the relation ΔGo=ΔHo-TΔSo.

The given reaction is,

The dimerization of NO2 : 2NO2(g)→N2O4(g)