For the synthesis of ammonia: N2(g) + 3H2(g) ↔ 2NH3(g) the equilibrium constant Kc at 375°C is 1.2. Starting with [H2]0 = 0.76 M, [N2]0 = 0.60 M, and [NH3]0 = 0.48 M in a 1.0-L sealed flask, the system is allowed to come to equilibrium, at which point an additional 0.15 moles of NH3 are added. Calculate the final partial pressure of H2(g) (in atm) once the system has re-established equilibrium. PH2 (in atm) at equilibrium: __________ Please provide handwrittem solution....asap...i will upvote
For the synthesis of ammonia: N2(g) + 3H2(g) ↔ 2NH3(g) the equilibrium constant Kc at 375°C is 1.2. Starting with [H2]0 = 0.76 M, [N2]0 = 0.60 M, and [NH3]0 = 0.48 M in a 1.0-L sealed flask, the system is allowed to come to equilibrium, at which point an additional 0.15 moles of NH3 are added. Calculate the final partial pressure of H2(g) (in atm) once the system has re-established equilibrium. PH2 (in atm) at equilibrium: __________ Please provide handwrittem solution....asap...i will upvote
Chemistry: The Molecular Science
5th Edition
ISBN:9781285199047
Author:John W. Moore, Conrad L. Stanitski
Publisher:John W. Moore, Conrad L. Stanitski
Chapter12: Chemical Equilibrium
Section: Chapter Questions
Problem 51QRT: At room temperature, the equilibrium constant Kc for the reaction
2 NO(g) ⇌ N2(g) + O2(g)
is 1.4 ×...
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For the synthesis of ammonia:
N2(g) + 3H2(g) ↔ 2NH3(g)
the equilibrium constant Kc at 375°C is 1.2. Starting with [H2]0 = 0.76 M, [N2]0 = 0.60 M, and [NH3]0 = 0.48 M in a 1.0-L sealed flask, the system is allowed to come to equilibrium, at which point an additional 0.15 moles of NH3 are added. Calculate the final partial pressure of H2(g) (in atm) once the system has re-established equilibrium.
PH2 (in atm) at equilibrium: __________
Please provide handwrittem solution....asap...i will upvote
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