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The concentration of Cu 2+ in CuSO 4 solution needs to be determined if the measured cell potential at 25°C is 0.67 V and the galvanic cell has an iron electrode in contact with 0.10 M FeSO 4 and a copper electrode in contact with CuSO 4 solution. Concept introduction: In the electrochemical cell, the reactions at cathode and anode occur due to the difference in their reduction electrode potential value. The EMF of the cell can be calculated with the help of electrode reduction potential values. The reaction at each electrode is called as half-reaction and the combination of both half-reactions gives the cell reaction of given electrochemical cell. The standard cell potential for an electrochemical cell can be calculated as: E cell ° = E cathode ° - E anode ° E cell ° = E reduction ° - E oxidation ° The potential of a cell can be calculated with the help of the Nernst equation that can be shown as: E° = E° cell - 0 .0592 V n log Q n = number of electrons Q = reaction quotient

The concentration of Cu 2+ in CuSO 4 solution needs to be determined if the measured cell potential at 25°C is 0.67 V and the galvanic cell has an iron electrode in contact with 0.10 M FeSO 4 and a copper electrode in contact with CuSO 4 solution. Concept introduction: In the electrochemical cell, the reactions at cathode and anode occur due to the difference in their reduction electrode potential value. The EMF of the cell can be calculated with the help of electrode reduction potential values. The reaction at each electrode is called as half-reaction and the combination of both half-reactions gives the cell reaction of given electrochemical cell. The standard cell potential for an electrochemical cell can be calculated as: E cell ° = E cathode ° - E anode ° E cell ° = E reduction ° - E oxidation ° The potential of a cell can be calculated with the help of the Nernst equation that can be shown as: E° = E° cell - 0 .0592 V n log Q n = number of electrons Q = reaction quotient

Solution Summary: The author explains the Nernst equation for calculating the cell potential of an electrochemical cell. The reaction at each electrode is called half-reaction.

CHEMISTRY-MASTERINGCHEMISTRY W/ETEXT

CHEMISTRY-MASTERINGCHEMISTRY W/ETEXT

8th Edition

ISBN: 9780135204634

Author: Robinson

Publisher: PEARSON

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Electrolysis is defined as the process of breaking down ionic compounds into their constituent elements by passing a direct electric current through the compound in a fluid state. The cathode reduces cations, while the anode oxidizes anions. An electroly…

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Chapter 19, Problem 19.97SP

Interpretation Introduction

Interpretation:

The concentration of Cu2+ in CuSO4 solution needs to be determined if the measured cell potential at 25°C is 0.67 V and the galvanic cell has an iron electrode in contact with 0.10 M FeSO4 and a copper electrode in contact with CuSO4 solution.

Concept introduction:

In the electrochemical cell, the reactions at cathode and anode occur due to the difference in their reduction electrode potential value. The EMF of the cell can be calculated with the help of electrode reduction potential values. The reaction at each electrode is called as half-reaction and the combination of both half-reactions gives the cell reaction of given electrochemical cell. The standard cell potential for an electrochemical cell can be calculated as:

Ecell° = Ecathode° - Eanode°Ecell° = Ereduction° - Eoxidation°

The potential of a cell can be calculated with the help of the Nernst equation that can be shown as:

E° = E°cell - 0.0592 Vn log Q n = number of electronsQ = reaction quotient

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Chapter 19, Problem 19.96SP

Chapter 19, Problem 19.98SP

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Chapter 19 Solutions

CHEMISTRY-MASTERINGCHEMISTRY W/ETEXT

Ch. 19 - Balance the following net ionic equation by the...Ch. 19 - Balance the following net ionic equation by the...Ch. 19 - Prob. 19.3P Ch. 19 - Balance the following net ionic equation by the...Ch. 19 - Prob. 19.5P Ch. 19 - Prob. 19.6A Ch. 19 - PRACTICE 18.7 Write a balanced equation for the...Ch. 19 - Consider the following galvanic cell with...Ch. 19 - The standard cell potential at 25oC is 1.20 V for...Ch. 19 - The standard free-energy change is 59.8kJ for the...

Ch. 19 - Which substance is the strongest reducting agent:...Ch. 19 - Consider the following table of standard reduction...Ch. 19 - Use Table 19.1 to calculate the value of Eo for...Ch. 19 - Prob. 19.14A Ch. 19 - Prob. 19.15P Ch. 19 - Prob. 19.16A Ch. 19 - Consider a galvanic cell that uses the reaction...Ch. 19 - Accidentally chewing on a stray fragment of...Ch. 19 - Consider the following galvanic cell: What is the...Ch. 19 - Prob. 19.20A Ch. 19 - What is the pH of the solution in the anode...Ch. 19 - Prob. 19.22A Ch. 19 - Use the data in Table 19.1 to calculate the...Ch. 19 - Prob. 19.24A Ch. 19 - Prob. 19.25P Ch. 19 - Prob. 19.26A Ch. 19 - In what ways are fuel cells and batteries similar,...Ch. 19 - Prob. 19.28P Ch. 19 - The cell reaction in a hydrogen—oxygen fuel cell...Ch. 19 - Prob. 19.30P Ch. 19 - Prob. 19.31P Ch. 19 - A steam—hydrocarbon reforming process is one...Ch. 19 - Another method of hydrogen production is the...Ch. 19 - The following picture of a galvanic cell has lead...Ch. 19 - Prob. 19.35CP Ch. 19 - Prob. 19.36CP Ch. 19 - Prob. 19.37CP Ch. 19 - Sketch a cell with inert electrodes suitable for...Ch. 19 - Prob. 19.39CP Ch. 19 - Prob. 19.40CP Ch. 19 - Consider the following galvanic cell with 0.10 M...Ch. 19 - Classify each of the following unbalanced...Ch. 19 - Classify each of the following unbalanced...Ch. 19 - Prob. 19.44SP Ch. 19 - Prob. 19.45SP Ch. 19 - Write unbalanced oxidation and reduction...Ch. 19 - Prob. 19.47SP Ch. 19 - Balance the following half-reactions. 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Electrolysis; Author: Tyler DeWitt;https://www.youtube.com/watch?v=dRtSjJCKkIo;License: Standard YouTube License, CC-BY