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Place your pre-1982 copper penny in an evaporating dish and heat with a mixture that first turns it silver, then suddenly turns it gold when the penny is then heated on a hot plate.
Caution: Wear safety goggles and gloves, do the reaction in the fume hood with the sash down. Note step 10: special disposal
Calculate this charge in coulombs.
N =
The equation for the reduction half-reaction responsible for the plating at the cathode is
Use the mol ratios of the preceding balanced equation to calculate the number of moles of Cu plated out:
m(Cu) = m(final)–m(initial)
M =
Hopefully here for the Pre-Lab
Note: In preparing this report you are free to use references and consult with others. However, you may not copy from other students’work (including your laboratory partner) or misrepresent your own data (see honor code).
Name(Print then sign): ___________________________________________________
Lab Day: ___________________Section: ________TA__________________________
This assignment must be completed individually and turned in to your TA at the beginning of lab. You will not be allowed to begin the lab until you have completed this assignment.
1. Write a balanced chemical equation for the electrolysis of molten potassium iodide (KI).
2. An electric current of 0.211 mA passes through an electrolytic cell for 2.00 min. How many moles of electrons have passed through the cell?
3. A voltage drop of 3.412 V is measured across a resistance of 10.51 ohms. How much current is flowing through the resistor?
4. Why is the anode not weighed before electrolysis begins?
Hopefully here for the Report Form
Note: In preparing this report you are free to use references and consult with others. However, you may not copy from other students’work (including your laboratory partner) or misrepresent your own data (see honor code).
Name(Print then sign): ___________________________________________________
Lab Day: ___________________Section: ________TA__________________________
Initial mass of cathode ___________________g
Final mass of cathode ___________________g
Mass of copper plated out ___________________g
Time (min) | Voltage (V) | Current (A) |
5 | ||
10 | ||
15 | ||
20 | ||
25 | ||
30 | ||
35 | ||
40 | ||
45 | ||
50 | ||
55 | ||
60 |
Show calculations for full credit!
Average Current = (A)
Total charge through cell ______________C
Number of moles through cell ______________mol
Molar mass of copper ______________g/mol
1. What is oxidized and what is reduced when electroplating copper?
2. Write the half reactions that occur at the anode and electrode.
3. Why is it important not to touch the cleaned cathode?
4. What is the purpose of in this experiment?
5. How would your results for the molar mass of copper be affected if hydrogen gas were also observed at the cathode?
6. What part of this procedure limits the accuracy of the molar mass determination?
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