2nd Edition

ISBN: 9781305079243

Author: Steven S. Zumdahl, Susan A. Zumdahl

Publisher: Cengage Learning

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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 17, Problem 71E

The overall reaction in the lead storage battery is

Pb ( s ) + PbO 2 ( s ) + 2H + ( a q ) + 2HSO 4 − ( a q ) → 2PbSO 4 ( s ) + 2H 2 O ( l )

Calculate Chapter 17, Problem 71E, The overall reaction in the lead storage battery is Pb(s)+PbO2(s)+2H+(aq)+2HSO4(aq)2PbSO4(s)+2H2O(l) , example 1 at 25°C for this battery when [H₂SO₄] = 4.5 M, that is, [H⁺] = [HSO₄⁻] = 4.5 M. At 25°C, =2.04 V for the lead storage battery.

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Chapter 17, Problem 70E

Chapter 17, Problem 72E

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Chapter 17 Solutions

Chemistry: An Atoms First Approach

Ch. 17 - What is a half-reaction? Why must the number of...Ch. 17 - Galvanic cells harness spontaneous...Ch. 17 - Table 17-1 lists common half-reactions along with...Ch. 17 - Prob. 4RQ Ch. 17 - The Nernst equation allows determination of the...Ch. 17 - Prob. 6RQ Ch. 17 - Prob. 7RQ Ch. 17 - Prob. 8RQ Ch. 17 - What characterizes an electrolytic cell? What is...Ch. 17 - Sketch a galvanic cell, and explain how it works....

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The overall reaction in the lead storage battery is Pb ( s ) + PbO 2 ( s ) + 2H + ( a q ) + 2HSO 4 − ( a q ) → 2PbSO 4 ( s ) + 2H 2 O ( l ) Calculate at 25°C for this battery when [H 2 SO 4 ] = 4.5 M , that is, [H + ] = [HSO 4 − ] = 4.5 M . At 25°C, =2.04 V for the lead storage battery.

Solution Summary: The author explains how the value of cell potential for a lead storage battery is calculated using the Nernst equation.

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