Bundle: General Chemistry, Loose-leaf Version, 11th + OWLv2, 4 terms (24 months) Printed Access Card
Bundle: General Chemistry, Loose-leaf Version, 11th + OWLv2, 4 terms (24 months) Printed Access Card
11th Edition
ISBN: 9781337128391
Author: Darrell Ebbing, Steven D. Gammon
Publisher: Cengage Learning
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Chapter 18, Problem 18.21QP

(a)

Interpretation Introduction

Interpretation:

For the given water sample various changes in enthalpy, entropy and free energy with temperature has to be explained.

Concept introduction:

Free energy:

Free energy is measured by subtracting the product of temperature and entropy from the enthalpy of a system.

G=H-TSwhere,G-freeenergy;H-enthalpyS-entropy and T-temperature.

Relationship between ΔGo,ΔHoandΔSo is given by

ΔGo=ΔHo-TΔSowhere,ΔGo-standardfreeenergychange;ΔHo-standardenthalpychangeΔSo-standardentropychange and T-temperature

(a)

Expert Solution
Check Mark

Answer to Problem 18.21QP

The temperature of the given water sample will increase gradually, and water will evaporate in the room.  This is a spontaneous process.

Explanation of Solution

To give: The change in the water sample

Given information,

temperatureofthewateris25oC.temperatureoftheroomis50oC.

The temperature of the given water sample will increase gradually, and then water sample will evaporate in the room.  This is a spontaneous process.

(b)

Interpretation Introduction

Interpretation:

For the given water sample various changes in enthalpy, entropy and free energy with temperature has to be explained.

Concept introduction:

Free energy:

Free energy is measured by subtracting the product of temperature and entropy from the enthalpy of a system.

G=H-TSwhere,G-freeenergy;H-enthalpyS-entropy and T-temperature.

Relationship between ΔGo,ΔHoandΔSo is given by

ΔGo=ΔHo-TΔSowhere,ΔGo-standardfreeenergychange;ΔHo-standardenthalpychangeΔSo-standardentropychange and T-temperature

(b)

Expert Solution
Check Mark

Answer to Problem 18.21QP

The sign of enthalpy is positive, since heat is absorbed for evaporation process.  The sign of entropy change is positive because water molecules changed their state from liquid to gas.

Explanation of Solution

To give: The enthalpy change of the water sample

Given information,

temperatureofthewateris25oC.temperatureoftheroomis50oC.

The sign of enthalpy is positive, since heat is absorbed by the water sample for evaporation process.  The sign of entropy is positive because water molecules changed their state from liquid to gas (free movement of molecules).

(c)

Interpretation Introduction

Interpretation:

For the given water sample various changes in enthalpy, entropy and free energy with temperature has to be explained.

Concept introduction:

Free energy:

Free energy is measured by subtracting the product of temperature and entropy from the enthalpy of a system.

G=H-TSwhere,G-freeenergy;H-enthalpyS-entropy and T-temperature.

Relationship between ΔGo,ΔHoandΔSo is given by

ΔGo=ΔHo-TΔSowhere,ΔGo-standardfreeenergychange;ΔHo-standardenthalpychangeΔSo-standardentropychange and T-temperature

(c)

Expert Solution
Check Mark

Answer to Problem 18.21QP

The water molecules are easily moving and in higher temperature.  Hence, the sign of entropy change is positive.  The sign of enthalpy change is already positive, so the only way to have a spontaneous process is when the sign of entropy change is also positive.

Explanation of Solution

To give: The entropy change of the water sample

Given information,

temperatureofthewateris25oC.temperatureoftheroomis50oC.

The water molecules are in easily moving state and in higher temperature.  Hence, the sign of entropy change is positive.

Given process is a spontaneous process, the sign of enthalpy change is already positive, so the sign of entropy change is should be positive.

(d)

Interpretation Introduction

Interpretation:

For the given water sample various changes in enthalpy, entropy and free energy with temperature has to be explained.

Concept introduction:

Free energy:

Free energy is measured by subtracting the product of temperature and entropy from the enthalpy of a system.

G=H-TSwhere,G-freeenergy;H-enthalpyS-entropy and T-temperature.

Relationship between ΔGo,ΔHoandΔSo is given by

ΔGo=ΔHo-TΔSowhere,ΔGo-standardfreeenergychange;ΔHo-standardenthalpychangeΔSo-standardentropychange and T-temperature

(d)

Expert Solution
Check Mark

Answer to Problem 18.21QP

Given process is a spontaneous process.  Hence, the sign of free energy change is negative.

Explanation of Solution

To give: The free energy change of the water sample

Given information,

temperatureofthewateris25oC.temperatureoftheroomis50oC.

Given process is a spontaneous process, hence, the sign of free energy should be negative.

For a spontaneous process ΔG<0.

(e)

Interpretation Introduction

Interpretation:

For the given water sample various changes in enthalpy, entropy and free energy with temperature has to be explained.

Concept introduction:

Free energy:

Free energy is measured by subtracting the product of temperature and entropy from the enthalpy of a system.

G=H-TSwhere,G-freeenergy;H-enthalpyS-entropy and T-temperature.

Relationship between ΔGo,ΔHoandΔSo is given by

ΔGo=ΔHo-TΔSowhere,ΔGo-standardfreeenergychange;ΔHo-standardenthalpychangeΔSo-standardentropychange and T-temperature

(e)

Expert Solution
Check Mark

Answer to Problem 18.21QP

The temperature of the given water sample will decrease gradually, and then water will evaporate in the room.  This is spontaneous process.

Explanation of Solution

To give: The change in the water sample

Given information,

temperatureofthewateris75oC.temperatureoftheroomis50oC.

The temperature of the given water sample will decrease gradually, and then water will evaporate in the room.  This is a spontaneous process.

(f)

Interpretation Introduction

Interpretation:

For the given water sample various changes in enthalpy, entropy and free energy with temperature has to be explained.

Concept introduction:

Free energy:

Free energy is measured by subtracting the product of temperature and entropy from the enthalpy of a system.

G=H-TSwhere,G-freeenergy;H-enthalpyS-entropy and T-temperature.

Relationship between ΔGo,ΔHoandΔSo is given by

ΔGo=ΔHo-TΔSowhere,ΔGo-standardfreeenergychange;ΔHo-standardenthalpychangeΔSo-standardentropychange and T-temperature

(f)

Expert Solution
Check Mark

Answer to Problem 18.21QP

The sign of enthalpy is negative because heat is released from water sample.  The entropy change is positive because water molecules are escaping into the gaseous state.

Explanation of Solution

To give: The enthalpy change of the water sample

Given information,

temperatureofthewateris75oC.temperatureoftheroomis50oC.

The sign of enthalpy is negative (ΔH<0) because heat is released from water sample.

The entropy change is positive (ΔS>0) because water molecules are escaping into the gaseous state.

(g)

Interpretation Introduction

Interpretation:

For the given water sample various changes in enthalpy, entropy and free energy with temperature has to be explained.

Concept introduction:

Free energy:

Free energy is measured by subtracting the product of temperature and entropy from the enthalpy of a system.

G=H-TSwhere,G-freeenergy;H-enthalpyS-entropy and T-temperature.

Relationship between ΔGo,ΔHoandΔSo is given by

ΔGo=ΔHo-TΔSowhere,ΔGo-standardfreeenergychange;ΔHo-standardenthalpychangeΔSo-standardentropychange and T-temperature

(g)

Expert Solution
Check Mark

Answer to Problem 18.21QP

The sign of entropy change is negative because water molecules are at a lower temperature and their movement is slow.  But, some water molecules evaporates and becomes vapor state this process will increases the entropy.

Explanation of Solution

To give: The entropy change of the water sample

Given information,

temperatureofthewateris75oC.temperatureoftheroomis50oC.

The sign of entropy change is negative because water molecules are at a lower temperature and their movement is slow.

But, some water molecules evaporates and becomes vapor state this process will increases the entropy.

(h)

Interpretation Introduction

Interpretation:

For the given water sample various changes in enthalpy, entropy and free energy with temperature has to be explained.

Concept introduction:

Free energy:

Free energy is measured by subtracting the product of temperature and entropy from the enthalpy of a system.

G=H-TSwhere,G-freeenergy;H-enthalpyS-entropy and T-temperature.

Relationship between ΔGo,ΔHoandΔSo is given by

ΔGo=ΔHo-TΔSowhere,ΔGo-standardfreeenergychange;ΔHo-standardenthalpychangeΔSo-standardentropychange and T-temperature

(h)

Expert Solution
Check Mark

Answer to Problem 18.21QP

Given process is a spontaneous process.  Hence, the sign of free energy change is negative.

Explanation of Solution

To give: The free energy change of the water sample

Given information,

temperatureofthewateris75oC.temperatureoftheroomis50oC.

Given process is a spontaneous process, hence, the sign of free energy should be negative.

For a spontaneous process ΔG<0.

(i)

Interpretation Introduction

Interpretation:

For the given water sample various changes in enthalpy, entropy and free energy with temperature has to be explained.

Concept introduction:

Free energy:

Free energy is measured by subtracting the product of temperature and entropy from the enthalpy of a system.

G=H-TSwhere,G-freeenergy;H-enthalpyS-entropy and T-temperature.

Relationship between ΔGo,ΔHoandΔSo is given by

ΔGo=ΔHo-TΔSowhere,ΔGo-standardfreeenergychange;ΔHo-standardenthalpychangeΔSo-standardentropychange and T-temperature

(i)

Expert Solution
Check Mark

Answer to Problem 18.21QP

The temperature of the water will not change, and water molecules will evaporate, this is a spontaneous process.

Explanation of Solution

To give: The change in the water sample

Given information,

temperatureofthewateris50oC.temperatureoftheroomis50oC.

The temperature of the water will not change, and water molecules will evaporate, this is a spontaneous process.

(j)

Interpretation Introduction

Interpretation:

For the given water sample various changes in enthalpy, entropy and free energy with temperature has to be explained.

Concept introduction:

Free energy:

Free energy is measured by subtracting the product of temperature and entropy from the enthalpy of a system.

G=H-TSwhere,G-freeenergy;H-enthalpyS-entropy and T-temperature.

Relationship between ΔGo,ΔHoandΔSo is given by

ΔGo=ΔHo-TΔSowhere,ΔGo-standardfreeenergychange;ΔHo-standardenthalpychangeΔSo-standardentropychange and T-temperature

(j)

Expert Solution
Check Mark

Answer to Problem 18.21QP

The sign of enthalpy is positive because heat is absorbed by water molecules for their evaporation.  The sign of entropy change is positive because the phase changes of water molecules from liquid to gas.

Explanation of Solution

To give: The enthalpy change of the water sample

Given information,

temperatureofthewateris50oC.temperatureoftheroomis50oC.

The sign of enthalpy change is positive, since heat is absorbed by the water sample for evaporation process.

The sign of entropy change is positive because water molecules changed their state from liquid to gas (free movement of molecules).

(k)

Interpretation Introduction

Interpretation:

For the given water sample various changes in enthalpy, entropy and free energy with temperature has to be explained.

Concept introduction:

Free energy:

Free energy is measured by subtracting the product of temperature and entropy from the enthalpy of a system.

G=H-TSwhere,G-freeenergy;H-enthalpyS-entropy and T-temperature.

Relationship between ΔGo,ΔHoandΔSo is given by

ΔGo=ΔHo-TΔSowhere,ΔGo-standardfreeenergychange;ΔHo-standardenthalpychangeΔSo-standardentropychange and T-temperature

(k)

Expert Solution
Check Mark

Answer to Problem 18.21QP

For a spontaneous process the sign of free energy change should be positive, here the sign of enthalpy change is already positive so the sign of entropy change should be positive.

Explanation of Solution

To give: The entropy change of the water sample

Given information,

temperatureofthewateris50oC.temperatureoftheroomis50oC.

For a spontaneous process ΔG<0.

Given process is a spontaneous process, the sign of enthalpy change is already positive, so the sign of entropy change should be positive.

(l)

Interpretation Introduction

Interpretation:

For the given water sample various changes in enthalpy, entropy and free energy with temperature has to be explained.

Concept introduction:

Free energy:

Free energy is measured by subtracting the product of temperature and entropy from the enthalpy of a system.

G=H-TSwhere,G-freeenergy;H-enthalpyS-entropy and T-temperature.

Relationship between ΔGo,ΔHoandΔSo is given by

ΔGo=ΔHo-TΔSowhere,ΔGo-standardfreeenergychange;ΔHo-standardenthalpychangeΔSo-standardentropychange and T-temperature

(l)

Expert Solution
Check Mark

Answer to Problem 18.21QP

Given process is a spontaneous process.  Hence, the sign of free energy change is negative.

Explanation of Solution

To give: The free energy change of the water sample

Given information,

temperatureofthewateris50oC.temperatureoftheroomis50oC.

Given process is a spontaneous process, hence, the sign of free energy change should be negative.

For a spontaneous process ΔG<0.

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Chapter 18 Solutions

Bundle: General Chemistry, Loose-leaf Version, 11th + OWLv2, 4 terms (24 months) Printed Access Card

Ch. 18.6 - Prob. 18.9ECh. 18.6 - Prob. 18.3CCCh. 18.7 - Consider the decomposition of dinitrogen...Ch. 18.7 - The thermodynamic equilibrium constant for the...Ch. 18.7 - To what temperature must magnesium carbonate be...Ch. 18 - What is a spontaneous process? Give three examples...Ch. 18 - Which contains greater entropy, a quantity of...Ch. 18 - State the second law of thermodynamics.Ch. 18 - The entropy change S for a phase transition equals...Ch. 18 - Describe how the standard entropy of hydrogen gas...Ch. 18 - Describe what you would look for in a reaction...Ch. 18 - Define the free energy G. How is G related to H...Ch. 18 - What is meant by the standard free-energy change G...Ch. 18 - Prob. 18.9QPCh. 18 - Prob. 18.10QPCh. 18 - Prob. 18.11QPCh. 18 - Prob. 18.12QPCh. 18 - Prob. 18.13QPCh. 18 - Prob. 18.14QPCh. 18 - Prob. 18.15QPCh. 18 - Prob. 18.16QPCh. 18 - Prob. 18.17QPCh. 18 - You run a reaction that has a negative entropy...Ch. 18 - Prob. 18.19QPCh. 18 - Given the following information at 25C, calculate...Ch. 18 - Prob. 18.21QPCh. 18 - Prob. 18.22QPCh. 18 - For each of the following statements, indicate...Ch. 18 - Which of the following are spontaneous processes?...Ch. 18 - Prob. 18.25QPCh. 18 - Predict the sign of the entropy change for each of...Ch. 18 - Hypothetical elements A(g) and B(g) are introduced...Ch. 18 - Prob. 18.28QPCh. 18 - Prob. 18.29QPCh. 18 - Describe how you would expect the spontaneity (G)...Ch. 18 - Chloroform, CHCl3, is a solvent and has been used...Ch. 18 - Diethyl ether (known simply as ether), (C2H5)2O,...Ch. 18 - The enthalpy change when liquid methanol. CH3OH,...Ch. 18 - The heat of vaporization of carbon disulfide, CS2,...Ch. 18 - Predict the sign of S, if possible, for each of...Ch. 18 - Predict the sign of S, if possible, for each of...Ch. 18 - Calculate S for the following reactions, using...Ch. 18 - Calculate S for the following reactions, using...Ch. 18 - Calculate S for the reaction...Ch. 18 - What is the change in entropy, S, for the reaction...Ch. 18 - Using enthalpies of formation (Appendix C),...Ch. 18 - Using enthalpies of formation (Appendix C),...Ch. 18 - The free energy of formation of one mole of...Ch. 18 - The free energy of formation of one mole of...Ch. 18 - Calculate the standard free energy of the...Ch. 18 - Calculate the standard free energy of the...Ch. 18 - On the basis of G for each of the following...Ch. 18 - For each of the following reactions, state whether...Ch. 18 - Calculate H and G for the following reactions at...Ch. 18 - Calculate H and G for the following reactions at...Ch. 18 - Consider the reaction of 2 mol H2(g) at 25C and 1...Ch. 18 - Consider the reaction of 1 mol H2(g) at 25C and 1...Ch. 18 - What is the maximum work that could be obtained...Ch. 18 - What is the maximum work that could be obtained...Ch. 18 - Give the expression for the thermodynamic...Ch. 18 - Write the expression for the thermodynamic...Ch. 18 - What is the standard free-energy change G at 25C...Ch. 18 - What is the standard free-energy change G at 25C...Ch. 18 - Calculate the standard free-energy change and the...Ch. 18 - Calculate the standard free-energy change and the...Ch. 18 - Obtain the equilibrium constant Kc at 25C from the...Ch. 18 - Calculate the equilibrium constant Kc at 25C from...Ch. 18 - Use data given in Tables 6.2 and 18.1 to obtain...Ch. 18 - Use data given in Tables 6.2 and 18.1 to obtain...Ch. 18 - Sodium carbonate, Na2CO3, can be prepared by...Ch. 18 - Oxygen was first prepared by heating mercury(II)...Ch. 18 - Prob. 18.67QPCh. 18 - The combustion of acetylene, C2H2, is a...Ch. 18 - Prob. 18.69QPCh. 18 - Prob. 18.70QPCh. 18 - Acetic acid, CH3COOH, freezes at 16.6C. The heat...Ch. 18 - Acetone, CH3COCH3, boils at 56C. The heat of...Ch. 18 - Prob. 18.73QPCh. 18 - Prob. 18.74QPCh. 18 - Prob. 18.75QPCh. 18 - Ethanol burns in air or oxygen according to the...Ch. 18 - Acetic acid in vinegar results from the bacterial...Ch. 18 - Prob. 18.78QPCh. 18 - Is the following reaction spontaneous as written?...Ch. 18 - Is the following reaction spontaneous as written?...Ch. 18 - Prob. 18.81QPCh. 18 - The reaction N2(g)+3H2(g)2NH3(g) is spontaneous at...Ch. 18 - Prob. 18.83QPCh. 18 - Calculate G at 25C for the reaction...Ch. 18 - Prob. 18.85QPCh. 18 - Consider the reaction CS2(g)+4H2(g)CH4(g)+2H2S(g)...Ch. 18 - Prob. 18.87QPCh. 18 - a From a consideration of the following reactions,...Ch. 18 - For the reaction CH3OH(l)+32O2(g)2H2O(l)+CO2(g)...Ch. 18 - Prob. 18.90QPCh. 18 - Prob. 18.91QPCh. 18 - Tungsten is usually produced by the reduction of...Ch. 18 - For the decomposition of formic acid,...Ch. 18 - Prob. 18.94QPCh. 18 - For the reaction 2Cu(s)+S(s)Cu2S(s) H and G are...Ch. 18 - Prob. 18.96QPCh. 18 - When 1.000 g of gaseous butane, C4H10, is burned...Ch. 18 - When 1.000 g of ethylene glycol, C2H6O2, is burned...Ch. 18 - a Calculate K1, at 25C for phosphoric acid:...Ch. 18 - a Calculate K1, at 25C for sulfurous acid:...Ch. 18 - The direct reaction of iron(III) oxide. Fe2O3, to...Ch. 18 - Prob. 18.102QPCh. 18 - Prob. 18.103QPCh. 18 - Prob. 18.104QPCh. 18 - Prob. 18.105QPCh. 18 - Cobalt(II) chloride hexahydrate, CoCl26H2O, is a...Ch. 18 - Prob. 18.107QPCh. 18 - Hydrogen gas and iodine vapor react to produce...Ch. 18 - Silver carbonate, Ag2CO3, is a light yellow...Ch. 18 - Prob. 18.110QPCh. 18 - Adenosine triphosphate, ATP, is used as a...Ch. 18 - Prob. 18.112QPCh. 18 - Prob. 18.113QPCh. 18 - Prob. 18.114QPCh. 18 - Sodium acetate crystallizes from a supersaturated...Ch. 18 - According to a source, lithium peroxide (Li2O2)...Ch. 18 - Tetrachloromethane (carbon tetrachloride), CCl4,...Ch. 18 - Prob. 18.118QPCh. 18 - Prob. 18.119QPCh. 18 - Prob. 18.120QPCh. 18 - Prob. 18.121QPCh. 18 - Coal is used as a fuel in some electric-generating...Ch. 18 - Hydrogen bromide dissociates into its gaseous...Ch. 18 - Hydrogen gas and iodine gas react to form hydrogen...Ch. 18 - Prob. 18.125QPCh. 18 - Prob. 18.126QPCh. 18 - Ka for acetic acid at 25.0C is 1754 105. At...Ch. 18 - Ksp for silver chloride at 25.0C is 1.782 1010....
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