In the following experiment, you will titrate 2.00 mL of 0.0100 M KMnO4 in base with 0.0200 M NaHSO3. Using your balanced redox equation in base from question 3 above, calculate the volume of titrant NaHSO3 you expect to require for a complete reaction. Balanced reaction: 2MnO4^1- + HSO3^1- +3OH^1- <=> 2MnO4^2- + SO4^2- + 2H2O
In the following experiment, you will titrate 2.00 mL of 0.0100 M KMnO4 in base with 0.0200 M NaHSO3. Using your balanced redox equation in base from question 3 above, calculate the volume of titrant NaHSO3 you expect to require for a complete reaction. Balanced reaction: 2MnO4^1- + HSO3^1- +3OH^1- <=> 2MnO4^2- + SO4^2- + 2H2O
Chapter20: Applications Of Oxidation/reduction Titrations
Section: Chapter Questions
Problem 20.29QAP
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In the following experiment, you will titrate 2.00 mL of 0.0100 M KMnO4 in base with 0.0200 M NaHSO3. Using your balanced redox equation in base from question 3 above, calculate the volume of titrant NaHSO3 you expect to require for a complete reaction.
Balanced reaction:
2MnO4^1- + HSO3^1- +3OH^1- <=> 2MnO4^2- + SO4^2- + 2H2O
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