For the reaction: 2 SO2 O2 2 SO: (g) + calculate: 4. how many moles of sulfur trioxide can theoretically be produced from 5 moles of sulfur dioxide? O2 (g) 2 SO: (g) For the reaction: 2 SO: (g)_+ 5. how many moles of oxygen are needed to react theoretically with 824 g of sulfur dioxide? For the reaction: 2 SO: (g)_+ O2 (g) 6. what mass of sulfur dioxide is required theoretically to produce 128.0 g of sulfur trioxide? 2 SO: (g) 2 SO: (g) For the reaction: 2 SO: (g)_+ 7. what mass of sulfur trioxide can actually be produced from 562.0 g of oxygen if the percent yield of this reaction is 85%? Ог (8)
For the reaction: 2 SO2 O2 2 SO: (g) + calculate: 4. how many moles of sulfur trioxide can theoretically be produced from 5 moles of sulfur dioxide? O2 (g) 2 SO: (g) For the reaction: 2 SO: (g)_+ 5. how many moles of oxygen are needed to react theoretically with 824 g of sulfur dioxide? For the reaction: 2 SO: (g)_+ O2 (g) 6. what mass of sulfur dioxide is required theoretically to produce 128.0 g of sulfur trioxide? 2 SO: (g) 2 SO: (g) For the reaction: 2 SO: (g)_+ 7. what mass of sulfur trioxide can actually be produced from 562.0 g of oxygen if the percent yield of this reaction is 85%? Ог (8)
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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Transcribed Image Text:For the reaction: 2 SO2
O2
2 SO: (g)
+
calculate:
4. how many moles of sulfur trioxide can theoretically be produced from 5 moles of sulfur
dioxide?
O2 (g)
2 SO: (g)
For the reaction: 2 SO: (g)_+
5. how many moles of oxygen are needed to react theoretically with 824 g of sulfur
dioxide?
For the reaction: 2 SO: (g)_+ O2 (g)
6. what mass of sulfur dioxide is required theoretically to produce 128.0 g of sulfur
trioxide?
2 SO: (g)
2 SO: (g)
For the reaction: 2 SO: (g)_+
7. what mass of sulfur trioxide can actually be produced from 562.0 g of oxygen if the
percent yield of this reaction is 85%?
Ог (8)
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