B. Click on the left pop-out tab for metals and select silver (Ag). Click on the left pop-out tab for solutions and select AgNO,(aq). Use the right tabs and select Cu and Cu(NO(ag). Click the labels to close the tabs. Click on the power switch of the voltmeter. Observe the action of the simulation and answer the following questions. Vot MANO The voltage (E") generated by the chemical reaction is_O , 416 Ag The electrons are flowing from_) (Which metal electrode?) to As the reaction proceeds, the concentration of the Ag* ions in the solution on the left decteases(increases, decreases, or stays the same) As the reaction proçeeds, the concentration of the Cu ions in the solution on the right LACreases increases, decreases, or stays the same) C. Data Analysis and Interpretation 1. What is the redox role of the electrons that pass through the Ag metal electrode? 2. What is the redox role of the electrons that pass through the Cu metal electrode? 3. Write the net ionic equation for the half reaction in the left beaker.
B. Click on the left pop-out tab for metals and select silver (Ag). Click on the left pop-out tab for solutions and select AgNO,(aq). Use the right tabs and select Cu and Cu(NO(ag). Click the labels to close the tabs. Click on the power switch of the voltmeter. Observe the action of the simulation and answer the following questions. Vot MANO The voltage (E") generated by the chemical reaction is_O , 416 Ag The electrons are flowing from_) (Which metal electrode?) to As the reaction proceeds, the concentration of the Ag* ions in the solution on the left decteases(increases, decreases, or stays the same) As the reaction proçeeds, the concentration of the Cu ions in the solution on the right LACreases increases, decreases, or stays the same) C. Data Analysis and Interpretation 1. What is the redox role of the electrons that pass through the Ag metal electrode? 2. What is the redox role of the electrons that pass through the Cu metal electrode? 3. Write the net ionic equation for the half reaction in the left beaker.
Chemistry by OpenStax (2015-05-04)
1st Edition
ISBN:9781938168390
Author:Klaus Theopold, Richard H Langley, Paul Flowers, William R. Robinson, Mark Blaser
Publisher:Klaus Theopold, Richard H Langley, Paul Flowers, William R. Robinson, Mark Blaser
Chapter17: Electrochemistry
Section: Chapter Questions
Problem 22E: The mass of three different metal electrodes, each from a different galvanic cell, were determined...
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Transcribed Image Text:B. Click on the left pop-out tab for metals and select silver (Ag).
Click on the left pop-out tab for solutions and select AgNO,(aq).
Use the right tabs and select Cu and Cu(NO(ag). Click the labels to close the tabs.
Click on the power switch of the voltmeter.
Observe the action of the simulation and answer the following questions.
Vot
MANO
The voltage (E") generated by the chemical reaction is_O , 416
Ag
The electrons are flowing from_)
(Which metal electrode?)
to
As the reaction proceeds, the concentration of the Ag* ions in the solution on the left
decteases(increases, decreases, or stays the same)
As the reaction proçeeds, the concentration of the Cu ions in the solution on the right
LACreases increases, decreases, or stays the same)
C. Data Analysis and Interpretation
1. What is the redox role of the electrons that pass through the Ag metal electrode?
2. What is the redox role of the electrons that pass through the Cu metal electrode?
3. Write the net ionic equation for the half reaction in the left beaker.
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