he copper(I) concentration in an aqueous solution is to be measured. For the cathode alf-cell, a silver electrode with a 1.00-M solution of AgNO; is used. For the anode half- ell, a copper electrode dipped into the solution is used. If the cell voltage is 0.62V at 5°C, calculate the copper(II) ion concentration of the solution. bund off answer up to the 4th decimal place. If it is less than 1, put a zero before the ecimal point. If it involves exponents, use E. kample: 1.2345x10 1.2345E-5
he copper(I) concentration in an aqueous solution is to be measured. For the cathode alf-cell, a silver electrode with a 1.00-M solution of AgNO; is used. For the anode half- ell, a copper electrode dipped into the solution is used. If the cell voltage is 0.62V at 5°C, calculate the copper(II) ion concentration of the solution. bund off answer up to the 4th decimal place. If it is less than 1, put a zero before the ecimal point. If it involves exponents, use E. kample: 1.2345x10 1.2345E-5
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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Formula: E = E cell - 0.0257/n (ln) (Q)
Transcribed Image Text:The copper(II) concentration in an aqueous solution is to be measured. For the cathode
half-cell, a silver electrode with a 1.00-M solution of AGNO3 is used. For the anode half-
cell, a copper electrode dipped into the solution is used. If the cell voltage is 0.62V at
25°C, calculate the copper(II) ion concentration of the solution.
Round off answer up to the 4th decimal place. If it is less than 1, put a zero before the
decimal point. If it involves exponents, use E.
Example: 1.2345x10 5 = 1.2345E-5
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