Chemistry
Chemistry
9th Edition
ISBN: 9781133611097
Author: Steven S. Zumdahl
Publisher: Cengage Learning
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Chapter 19, Problem 82CP

(a)

Interpretation Introduction

Interpretation: The given questions based upon the redox properties of zirconium are to be answered.

Concept introduction: Zirconium is one of the few metals that retain its structural integrity upon exposure to radiation. The fuel rods in most of the nuclear reactors are therefore often made up of zirconium.

To determine: whether zirconium metal is capable of reducing water to form hydrogen gas at standard conditions.

(a)

Expert Solution
Check Mark

Answer to Problem 82CP

Answer

The zirconium metal is capable of reducing water to form hydrogen gas at standard conditions.

Explanation of Solution

The zirconium metal is capable of reducing water to form hydrogen gas at standard conditions.

The given half reaction is,

ZrO2.H2O+H2O+4eZr+4OH             E1ο=2.36 V (1)

The half reaction for reduction of water is,

2H2O+2eH2+2OH                             E2ο=0.83 V (2)

The equation (1) is reversed, equation (2) is multiplied by 2 and both the equations are then added to get the resultant equation given below.

Zr+3H2OZrO2.H2O+2H2 (3)

This equation shown that zinc metal is capable of reducing water to form hydrogen gas at standard conditions.

(b)

Interpretation Introduction

Interpretation: The given questions based upon the redox properties of zirconium are to be answered.

Concept introduction: Zirconium is one of the few metals that retain its structural integrity upon exposure to radiation. The fuel rods in most of the nuclear reactors are therefore often made up of zirconium.

(b)

Expert Solution
Check Mark

Answer to Problem 82CP

Answer

The equation has been stated below.

Explanation of Solution

To determine: The balanced chemical equation for the reduction of water by zirconium.

The equation has been stated below.

The balance chemical equation for the reduction of water by zirconium is,

Zr+3H2OZrO2.H2O+2H2

Water is reduced by zirconium to form hydrogen gas.

(c)

Interpretation Introduction

Interpretation: The given questions based upon the redox properties of zirconium are to be answered.

Concept introduction: Zirconium is one of the few metals that retain its structural integrity upon exposure to radiation. The fuel rods in most of the nuclear reactors are therefore often made up of zirconium.

To determine: The values of Eο, ΔGο and K for the reduction of water by zirconium metal.

(c)

Expert Solution
Check Mark

Answer to Problem 82CP

Answer

The values of Eο is 1.53 V_, values of ΔGο is 5.90×10-5 J_ and value of K 3.2×10103_. The mass of hydrogen produced is 2.21×104 g_.

Explanation of Solution

The value of Eο is 1.53 V_.

The values of electrode potential, Eο, for the reduction of water by zirconium metal is calculated by the formula,

Eο=EcathodeοEanodeοEο=E2οE1ο

Where,

  • E1ο is the standard electrode potential of equation (1).
  • E2ο is the standard electrode potential of equation (2).

Substitute the value of E1ο and E2ο in the above formula.

Eο=E2οE1ο=0.83 V -(-2.36 V)=1.53 V_

Therefore, the value of Eο is 1.53 V_.

The value of (ΔGο) is 5.90×10-5 J_.

The standard free energy change (ΔGο) for the reaction is calculated by the formula,

ΔGο=nFEο

Where,

  • F is faraday constant (96485 C/mol e).
  • n is number of electrons.

The value of n is 4.

Substitute the value of n, F and Eο in the above equation.

ΔGο=4×96485×1.53=5.90×10-5 J_

Therefore, the value of (ΔGο) is 5.90×10-5 J_.

The mass of hydrogen produced is 2.21×104 g_.

The equilibrium constant (K) is calculated by the formula,

log K=nE00.0591

Substitute the value of Eο, n in the above equation.

log K=4×1.530.0591K=3.2×10103_

The value of equilibrium constant (K) is 3.2×10103_.

Molar mass of Zr is 91.22 g/mol.

The conversion of Kg to g is done as,

1 Kg=103 g

Therefore, the conversion of 103 Kg Zr to g is done as,

103 Kg Zr=103×103 g Zr=106 g Zr

The amount of hydrogen formed by 91.22 g Zr=2 mol.

Therefore, the amount of hydrogen formed by 106 g Zr=291.22×106 mol H2=2.19×104 mol H2

Mass of hydrogen produced from 1 mol H2=1.008 g.

Therefore, the mass of hydrogen produced from 2.19×104 mol H2=2.19×104×1.008 g=2.21×104 g_ H2

Therefore, the mass of hydrogen produced is 2.21×104 g_.

The volume of hydrogen gas is 228.8 L_.

The volume of H2 is calculated by the ideal gas equation given below.

PV=nRT

Where,

  • P is the pressure of hydrogen gas.
  • V is the volume. of hydrogen gas
  • R is universal gas constant (0.0821 L atm mol-1 K-1).
  • T is the temperature.
  • n is number of moles.

The value of P is 1 atm.

The value of T is 100 οC=1273 K

The value of n is 2.21×104.

Substitute the value of n, T, R and P in the above equation.

V=nRTP=2.21×104×0.0821×12731=228.8 L_

Therefore, the volume of hydrogen gas is 228.8 L_.

(d)

Interpretation Introduction

Interpretation: The given questions based upon the redox properties of zirconium are to be answered.

Concept introduction: Zirconium is one of the few metals that retain its structural integrity upon exposure to radiation. The fuel rods in most of the nuclear reactors are therefore often made up of zirconium.

To determine: whether it was correct decision to vent the hydrogen and other radioactive gases into the atmosphere or not.

(d)

Expert Solution
Check Mark

Answer to Problem 82CP

Answer

The decision was not correct.

Explanation of Solution

The decision was not correct.

At Chernobyl in 1986, hydrogen was produced by the reaction of superheated steam with the graphite reactor core. The reaction that took place was,

C(s)+H2O(g)CO(g)+H2(g)

It was not possible to prevent a chemical explosion at Chernobyl. It was not a correct decision to vent the hydrogen and other radioactive gases into the atmosphere because of safety and waste disposal issues.

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Chapter 19 Solutions

Chemistry

Ch. 19 - Prob. 1QCh. 19 - Prob. 2QCh. 19 - Prob. 3QCh. 19 - Prob. 4QCh. 19 - Prob. 5QCh. 19 - Prob. 6QCh. 19 - Prob. 7QCh. 19 - Prob. 8QCh. 19 - Prob. 9QCh. 19 - Prob. 10QCh. 19 - Prob. 11ECh. 19 - Prob. 12ECh. 19 - Prob. 13ECh. 19 - Prob. 14ECh. 19 - Prob. 15ECh. 19 - Prob. 16ECh. 19 - Prob. 17ECh. 19 - Prob. 18ECh. 19 - Prob. 19ECh. 19 - Prob. 20ECh. 19 - Prob. 21ECh. 19 - Prob. 23ECh. 19 - Prob. 24ECh. 19 - Prob. 26ECh. 19 - Prob. 27ECh. 19 - Prob. 28ECh. 19 - Prob. 29ECh. 19 - Prob. 30ECh. 19 - Prob. 31ECh. 19 - Prob. 32ECh. 19 - Prob. 33ECh. 19 - Prob. 34ECh. 19 - Prob. 35ECh. 19 - Prob. 36ECh. 19 - Prob. 37ECh. 19 - Prob. 38ECh. 19 - Prob. 39ECh. 19 - Prob. 40ECh. 19 - Prob. 41ECh. 19 - Prob. 42ECh. 19 - Prob. 43ECh. 19 - Prob. 44ECh. 19 - Prob. 46ECh. 19 - Prob. 47ECh. 19 - Prob. 48ECh. 19 - Prob. 49ECh. 19 - Prob. 50ECh. 19 - Prob. 51ECh. 19 - Prob. 52ECh. 19 - Prob. 53ECh. 19 - Prob. 54ECh. 19 - Prob. 55ECh. 19 - Prob. 56ECh. 19 - Prob. 57ECh. 19 - Prob. 58ECh. 19 - Prob. 59AECh. 19 - Prob. 60AECh. 19 - Prob. 61AECh. 19 - Prob. 62AECh. 19 - Prob. 63AECh. 19 - Prob. 64AECh. 19 - Prob. 65AECh. 19 - Prob. 66AECh. 19 - Prob. 67AECh. 19 - Prob. 68AECh. 19 - Prob. 69AECh. 19 - Prob. 70AECh. 19 - Prob. 71AECh. 19 - Prob. 72AECh. 19 - Prob. 73CWPCh. 19 - Prob. 74CWPCh. 19 - Prob. 75CWPCh. 19 - Prob. 76CWPCh. 19 - Prob. 77CWPCh. 19 - Prob. 78CWPCh. 19 - Prob. 79CPCh. 19 - Prob. 80CPCh. 19 - Prob. 81CPCh. 19 - Prob. 82CPCh. 19 - Prob. 83CPCh. 19 - Prob. 84CPCh. 19 - Prob. 85CPCh. 19 - Prob. 86CPCh. 19 - Prob. 87IPCh. 19 - Prob. 88IP
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