Thermochemistry: Temperature

Introduction to Thermochemistry

2 Activities

The oxidation of NO is shown below. Using the provided thermodynamic data answer the following questions 

2 NO(g)+O2(g)→2 NO2)g)2\ NO_{(g)}+O_{2(g)}\rightarrow2\ NO_{2)g)}2 NO(g)​+O2(g)​→2 NO2)g)​

ΔHo=−57.1kJmol and ΔSo=−73Jmol at 298K\Delta H^o=-57.1\frac{kJ}{mol}\ \text{and}\ \Delta S^o=-73\frac{J}{mol}\ at\ 298KΔHo=−57.1molkJ​ and ΔSo=−73molJ​ at 298K

At what temperature does this reaction become spontaneous?

Answer

I don't know

Gibbs Free Energy

The reaction of 
H2(g)+CO2(g)↔H2O(g)+CO(g) at 2000K KP=4.40H_{2(g)}+CO_{2(g)}\leftrightarrow H_2O_{(g)}+CO_{(g)}\ at\ 2000K\ K_P=4.40H2(g)​+CO2(g)​↔H2​O(g)​+CO(g)​ at 2000K KP​=4.40 
Calculate ΔG for this reaction

Thermochemistry: Gibbs Free Energy

The oxidation of NO is shown below. Using the provided thermodynamic data answer the following questions
2 NO(g)+O2(g)→2 NO2)g)2\ NO_{(g)}+O_{2(g)}\rightarrow2\ NO_{2)g)}2 NO(g)​+O2(g)​→2 NO2)g)​
ΔHo=−57.1kJmol and ΔSo=−73Jmol at 298K\Delta H^o=-57.1\frac{kJ}{mol}\ \text{and}\ \Delta S^o=-73\frac{J}{mol}\ at\ 298KΔHo=−57.1molkJ​ and ΔSo=−73molJ​ at 298K 

Thermochemistry: Equilibrium (Keq)

The Haber Bosch Process is an industrial process for “fixing” nitrogen, shown below.This process produces around 500 million tons of ammonia every year. Calculate Keq
   3 H2(g)+N2(g)→ 2 NH3(g)3\ H_{2(g)}+N_{2(g)}\rightarrow\ 2\ \text{NH}_{3(g)}3 H2(g)​+N2(g)​→ 2 NH3(g)​
ΔfGo(NH3)=−16.4 kJ/mol\Delta _fG^o(NH_3)=-16.4\ kJ/molΔf​Go(NH3​)=−16.4 kJ/mol

 Using the following data, calculate the standard entropy change for the reaction: 
2Al(s)+3ZnO(s)→Al2O3(s)+3Zn(s)2Al_{(s)}+3ZnO_{(s)}\to Al_2O_{3(s)} +3Zn_{(s)}2Al(s)​+3ZnO(s)​→Al2​O3(s)​+3Zn(s)​
 Report your answer in J/mol K to four significant figures.  Do not include units in the answer field.  

A spontaneous process:

 Which of the following statements regarding spontaneous changes is false? 

A freshly baked pie is placed near an open window to cool. Which of the following statements best describes this situation? 

Thermodynamics: Heat and Work

Consider the following balanced chemical equation for the combustion of propane, C3H8:
C3H8(g)+5O2(g)→4H2O(ℓ)+3CO2(g)q<0C_3H_8 (g) + 5 O_2      (g) → 4 H_2O (ℓ) + 3      CO_2 (g) \qquad q < 0C3​H8​(g)+5O2​(g)→4H2​O(ℓ)+3CO2​(g)q<0
Use this information to answer the next two questions. Choose one if the options inside the brackets

If a reaction is nonspontaneous at 298 K with a negative ΔHo, then the reaction is:  
Select all that apply

 The oxidation of NO is shown below. Using the provided thermodynamic data answer the following questions 
 2 NO(g)+O2(g)→2 NO2)g)2\ NO_{(g)}+O_{2(g)}\rightarrow2\ NO_{2)g)}2 NO(g)​+O2(g)​→2 NO2)g)​ 
 ΔHo=−57.1kJmol and ΔSo=−73Jmol at 298K\Delta H^o=-57.1\frac{kJ}{mol}\ \text{and}\ \Delta S^o=-73\frac{J}{mol}\ at\ 298KΔHo=−57.1molkJ​ and ΔSo=−73molJ​ at 298K 

The oxidation of NO is shown below. Using the provided thermodynamic data answer the following questions
 2 NO(g)+O2(g)→2 NO2)g)2\ NO_{(g)}+O_{2(g)}\rightarrow2\ NO_{2)g)}2 NO(g)​+O2(g)​→2 NO2)g)​ 
 ΔHo=−57.1kJmol and ΔSo=−73Jmol at 298K\Delta H^o=-57.1\frac{kJ}{mol}\ \text{and}\ \Delta S^o=-73\frac{J}{mol}\ at\ 298KΔHo=−57.1molkJ​ and ΔSo=−73molJ​ at 298K 

Find ΔG0 for the following reaction.
         CH4(g)+2 O2(g)→2 H2O(g)+CO2(g)\text{CH}_{4(g)}+2\ O_{2(g)}\rightarrow 2\ H_2O_{(g)}+\text{CO}_{2(g)}CH4(g)​+2 O2(g)​→2 H2​O(g)​+CO2(g)​

 Consider the following vaporization: 
CH3CH2OH(l)→CH3CH2OH(g)CH_3CH_2OH_{(l)}\to CH_3CH_2OH_{(g)}CH3​CH2​OH(l)​→CH3​CH2​OH(g)​
 If ∆Hvap = 39.3 kJ/mol and the boiling point of ethanol is 78.3°C, what is ΔS for the vaporization of 1.73 mols of ethanol at its boiling point? 

Predict the sign of the ΔH, ΔS,(+ or -) and identify when the following reactions are spontaneous at low temperature, high temperature, or all temperatures (low, high, all).  Use commas to write your answers ie. +,+,low
 For freezing of a popsicle: ΔH is ___________, ΔS is ___________. Reaction is spontaneous at ____________________ temperatures
 For evaporation of liquid water: ΔH is ___________, ΔS is ___________. Reaction is spontaneous at ____________________ temperatures

 Arrange the following compounds in order of increasing entropy, assuming 1 mol of each compound: 
Ar(g)Fe(s)CH3CH2CH3(g)HOCH2CH2CH2OH(l)Ar(g) \hspace{15pt}Fe(s)\hspace{15pt} CH_3CH_2CH_{3(g)} \hspace{15pt} HOCH_2CH_2CH_2OH_{(l)}Ar(g)Fe(s)CH3​CH2​CH3(g)​HOCH2​CH2​CH2​OH(l)​
Ar(g)Ar(g)Ar(g)

Calculate ΔSsys ΔSsurr and ΔSUniv for the combustion of hydrogen shown below (unbalanced). Is the process spontaneous?
        H2(g)+O2(g)→H2O(g)H_{2(g)}+O_{2(g)}\rightarrow H_2O_{(g)}H2(g)​+O2(g)​→H2​O(g)​
ΔHf0(H2O(g)) = -285.83 kJ/mol

Thermochemistry: Entropy Calculations

Using the ΔH0 of fusion for water 6.03 kJ/mol and the ΔS0 of fusion for water 22.1 J K-1 mol-1, calculate the ΔSuniv for ice melting at -10oC, 0oC and 10oC. Remember: the universe transfers heat in a reversible way.

Thermodynamics: Entropy Calculations

Using the following data, calculate the standard entropy of the reaction shown below. Enter your answer in units of J / (mol*K)
2 Al(s)+3 ZnO(s)→Al2O3(s)+3Zn(s)2\ Al_{(s)}+3\ ZnO_{(s)}\rightarrow Al_2O_{3(s)}+3Zn_{(s)}2 Al(s)​+3 ZnO(s)​→Al2​O3(s)​+3Zn(s)​
So(Al(s))=28.3 J mol−1K−1S^o(Al_{(s)})=28.3\ J\ mol^{-1}K^{-1}So(Al(s)​)=28.3 J mol−1K−1

Thermochemistry: Temperature

Related Topics

Introduction to Thermochemistry

More Introduction to Thermochemistry Questions:

Gibbs Free Energy

Thermochemistry: Gibbs Free Energy

Thermochemistry: Equilibrium (Keq)

Thermodynamics: Heat and Work

Thermochemistry: Entropy Calculations

Thermodynamics: Entropy Calculations