1 / 23

Electrolytic Cells Lab Lesson 10

Electrolytic Cells Lab Lesson 10. Electrolytic cell Lab Dec 17, 2008 Full Name Purpose: To draw and completely analyze five electrolytic cells. Procedure: 1. Fold a filter paper and place in a watch glass 2. Add 20 mL of electrolyte 3. Immerse the carbon electrodes

vladimir-turner
Download Presentation

Electrolytic Cells Lab Lesson 10

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Electrolytic Cells Lab Lesson 10

  2. Electrolytic cell Lab Dec 17, 2008 Full Name Purpose: To draw and completely analyze five electrolytic cells. Procedure: 1. Fold a filter paper and place in a watch glass 2. Add 20 mL of electrolyte 3. Immerse the carbon electrodes in the electrolyte to complete the electrolytic cell. Data:

  3. 1. KBr(aq) electrolytic cell with phenolphthalein. Cathode: Anode: Observations: Significance: Power Source - + e- e- C C - +

  4. 1. KBr(aq) electrolytic cell with phenolphthalein. . Cathode: Anode: Observations: Significance: Power Source - + e- e- C C - + K+ Br- H2O

  5. 1. KBr(aq) electrolytic cell with phenolphthalein. Cathode: Anode: Observations: Significance: Power Source - + e- e- C C - + K+ Br- H2O

  6. 1. KBr(aq) electrolytic cell with phenolphthalein. Cathode: Anode: Observations:bubbles Significance: Power Source - + e- e- C C - + K+ Br- H2O

  7. 1. KBr(aq) electrolytic cell with phenolphthalein. Cathode: Anode: Observations:bubbles Significance: Power Source - + e- e- C C - + K+ Br- H2O

  8. 1. KBr(aq) electrolytic cell with phenolphthalein. Cathode: Anode: Observations:bubbles pink Significance: Power Source - + e- e- C C - + K+ Br- H2O

  9. 1. KBr(aq) electrolytic cell with phenolphthalein. Cathode: Anode: Observations:bubbles pink Significance: Power Source - + e- e- C C - + K+ Br- H2O

  10. 1. KBr(aq) electrolytic cell with phenolphthalein. Cathode: Anode: Observations:bubbles pinkyellowliquid Significance: Power Source - + e- e- C C - + K+ Br- H2O

  11. 1. KBr(aq) electrolytic cell with phenolphthalein. Cathode: Anode: Observations:bubbles pinkyellowliquid Significance: Power Source - + e- e- C C - Cathode Reduction + K+ Br- H2O

  12. 1. KBr(aq) electrolytic cell with phenolphthalein. Cathode: Anode: Observations:bubbles pinkyellowliquid Significance: Power Source - + e- e- C C - Cathode Reduction 2H2O+2e- → H2+ 2OH- -0.41v + K+ Br- H2O

  13. 1. KBr(aq) electrolytic cell with phenolphthalein. Cathode: Anode: Observations:bubbles pinkyellowliquid Significance:H2 Power Source - + e- e- C C - Cathode Reduction 2H2O+2e- → H2+ 2OH- -0.41 v + K+ Br- H2O

  14. 1. KBr(aq) electrolytic cell with phenolphthalein. Cathode: Anode: Observations:bubbles pinkyellowliquid Significance:H2OH- Power Source - + e- e- C C - Cathode Reduction 2H2O+2e- → H2+ 2OH- -0.41 v + K+ Br- H2O

  15. 1. KBr(aq) electrolytic cell with phenolphthalein. Cathode: Anode: Observations:bubbles pinkyellowliquid Significance:H2OH- Power Source - + e- e- C C - Cathode Reduction 2H2O+2e- → H2+ 2OH- -0.41 v + Anode Oxidation K+ Br- H2O

  16. 1. KBr(aq) electrolytic cell with phenolphthalein. Cathode: Anode: Observations:bubbles pinkyellow liquid Significance:H2OH- Power Source - + e- e- C C - Cathode Reduction 2H2O+2e- → H2+ 2OH- -0.41 v + Anode Oxidation 2Br-→ Br2(l) + 2e- -1.09 v K+ Br- H2O

  17. 1. KBr(aq) electrolytic cell with phenolphthalein. Cathode: Anode: Observations:bubbles pinkyellow liquid Significance:H2OH-Br2 Power Source - + e- e- C C - Cathode Reduction 2H2O+2e- → H2+ 2OH- -0.41 v + Anode Oxidation 2Br-→ Br2(l) + 2e- -1.09 v K+ Br- H2O

  18. 1. KBr(aq) electrolytic cell with phenolphthalein. Cathode: Anode: Observations:bubbles pinkyellowliquid Significance:H2OH-Br2 Power Source - + e- e- C C - Cathode Reduction 2H2O+2e- → H2+ 2OH- -0.41 v + Anode Oxidation 2Br-→ Br2(l) + 2e- -1.09 v K+ Br- H2O 2H2O+ 2Br-→ H2+ Br2(l) + 2OH- E0 = -1.50 v MTV = +1.50 v

  19. 2. Na2SO4(aq) electrolytic cell with Yamada’s Indicator. Cathode: Anode: Observations:pink bubblesorange bubbles Significance: Power Source - + e- e- C C - +

  20. 3. AgNO3(aq) electrolytic cell with Bromocresol Green. Cathode: Anode: Observations:white metal yellow bubbles Significance: Power Source - + e- e- C C - +

  21. 4. Pb(NO3)2(aq) electrolytic cell with thymol blue. Cathode: Anode: Observations: solid metalred bubbles Significance: Power Source - + e- e- C C - +

  22. 5. KI(aq) electrolytic cell with phenolphthalein & Starch. Cathode: Anode: Observations: pink bubblesblack Significance: Power Source - + e- e- C C - +

  23. Conclusion State that you did what you set out to do in the purpose. Define an electrolytic cell. Do I need to say, do not use pronouns, Navreen? Start with the main rule and describe how you would completely analyze an electrolytic cell- use your notes, don't be a hero! Discuss how you determined the anode, cathode, site of oxidation, and site of reduction. Discuss electron flow and ion migration. Describe how you determined the anode and cathode reaction and include a discussion of the overpotential effect for water. Describe what electrolytic cells are used for and list all of the chemicals produced in this lab.

More Related