5) Consider the UNbalanced equation and balance it: N2(g) + S8(s) → N2S5(s) 6) Using the balanced equation: If 92.1 liters of nitrogen gas, N2, and 128 grams of sulfur, Sg, react, how many grams of N2S5 will be produced? (Molar mass of Sg is 256.48 grams/mole, Molar mass of N2S5 is 188.32 grams/mole)
5) Consider the UNbalanced equation and balance it: N2(g) + S8(s) → N2S5(s) 6) Using the balanced equation: If 92.1 liters of nitrogen gas, N2, and 128 grams of sulfur, Sg, react, how many grams of N2S5 will be produced? (Molar mass of Sg is 256.48 grams/mole, Molar mass of N2S5 is 188.32 grams/mole)
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
Chapter3: Stoichiometry
Section: Chapter Questions
Problem 7RQ: Consider the hypothetical reaction between A2 and AB pictured below. What is the balanced equation?...
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Limiting Reactant Practice
5) Consider the UNbalanced equation and balance it: N2(g) + S8(s) → N2S5(s)
6) Using the balanced equation:
If 92.1 liters of nitrogen gas, N2, and 128 grams of sulfur, S8, react, how many grams of N2S5 will be produced? (Molar mass of S8 is 256.48 grams/mole, Molar mass of N2S5 is 188.32 grams/mole)
Transcribed Image Text:5) Consider the UNbalanced equation and balance it:
N2(g)
+
S8(s) →
N2S5(s)
6) Using the balanced equation:
If 92.1 liters of nitrogen gas, N2, and 128 grams of sulfur, Sg, react, how many grams of N2S5 will be
produced? (Molar mass of Sg is 256.48 grams/mole, Molar mass of N2S5 is 188.32 grams/mole)
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