Ozzie wanted to do another experiment with a stronger H2O2 solution to check accuracy of the experiment by calculating the theoretical volume of O2(g) it would produce. Then he could compare the experiment volume of O2(g) to the theoretical volume of O2(g). He used 5.20ml of 3.18 M H2O2 and the partial pressure of O2 was 0.9959 atm and the temperature was 291.25K. What volume of O2(g) could he theoretically produce (in ml)? 198 is the answer. (can you please show how to calculate this)
Ozzie wanted to do another experiment with a stronger H2O2 solution to check accuracy of the experiment by calculating the theoretical volume of O2(g) it would produce. Then he could compare the experiment volume of O2(g) to the theoretical volume of O2(g). He used 5.20ml of 3.18 M H2O2 and the partial pressure of O2 was 0.9959 atm and the temperature was 291.25K. What volume of O2(g) could he theoretically produce (in ml)? 198 is the answer. (can you please show how to calculate this)
Introductory Chemistry: A Foundation
9th Edition
ISBN:9781337399425
Author:Steven S. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Donald J. DeCoste
Chapter15: Solutions
Section: Chapter Questions
Problem 33CR: If an electric current is passed through molten sodium chloride, elemental chlorine gas is generated...
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Ozzie wanted to do another experiment with a stronger H2O2 solution to check accuracy of the experiment by calculating the theoretical volume of O2(g) it would produce. Then he could compare the experiment volume of O2(g) to the theoretical volume of O2(g). He used 5.20ml of 3.18 M H2O2 and the partial pressure of O2 was 0.9959 atm and the temperature was 291.25K.
What volume of O2(g) could he theoretically produce (in ml)?
198 is the answer. (can you please show how to calculate this)
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