1. Cyanogen gas, C2N2, has been found in the gases of outer space. It can react with fluorine to form carbon tetrafluoride and nitrogen trifluoride. C2N2(g) + 7F2(g) → 2CF4(g) + 2NF3(g) How many moles of cyanogen are required to produce 0.5601 mol of NF3? 2. Cyanogen gas, C2N2, has been found in the gases of outer space. It can react with fluorine to form carbon tetrafluoride and nitrogen trifluoride. C2N2(g) + 7F2(g) → 2CF4(g) + 2NF3(g) How many moles of fluorine will yield 5.594 mol of nitrogen trifluoride?
1. Cyanogen gas, C2N2, has been found in the gases of outer space. It can react with fluorine to form carbon tetrafluoride and nitrogen trifluoride. C2N2(g) + 7F2(g) → 2CF4(g) + 2NF3(g) How many moles of cyanogen are required to produce 0.5601 mol of NF3? 2. Cyanogen gas, C2N2, has been found in the gases of outer space. It can react with fluorine to form carbon tetrafluoride and nitrogen trifluoride. C2N2(g) + 7F2(g) → 2CF4(g) + 2NF3(g) How many moles of fluorine will yield 5.594 mol of nitrogen trifluoride?
Chemistry: The Molecular Science
5th Edition
ISBN:9781285199047
Author:John W. Moore, Conrad L. Stanitski
Publisher:John W. Moore, Conrad L. Stanitski
Chapter3: Chemical Reactions
Section3.7: Limiting Reactants
Problem 3.18E: Urea is used as a fertilizer because it can react with water to release ammonia, which provides...
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1. Cyanogen gas, C2N2, has been found in the gases of outer space. It can react with fluorine to form carbon tetrafluoride and nitrogen trifluoride.
C2N2(g) + 7F2(g) → 2CF4(g) + 2NF3(g)
How many moles of cyanogen are required to produce 0.5601 mol of NF3?
2. Cyanogen gas, C2N2, has been found in the gases of outer space. It can react with fluorine to form carbon tetrafluoride and nitrogen trifluoride.
C2N2(g) + 7F2(g) → 2CF4(g) + 2NF3(g)
How many moles of fluorine will yield 5.594 mol of nitrogen trifluoride?
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