The decomposition of NOCI (g) to NO (g) and Cl₂ (g) was executed in a reactor at 500 K wherein 4.98 moles of NOCI was placed in a 1.50-liter reactor until the system reached equilibrium. At equilibrium, the contents of the reactor were found to contain 0.54 moles of Cl2. Compute for the equilibrium constant Kat 500 K. Express your answer in three decimal places. 2NOCI (g) + 2NO(g) + Cl₂ (g)

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QUESTION 8
The decomposition of NOCI (g) to NO (g) and Cl2 (g) was executed in a reactor at 500 K wherein 4.98 moles of NOCI was placed in a 1.50-liter reactor until the system reached
equilibrium. At equilibrium, the contents of the reactor were found to contain 0.54 moles of Cl₂. Compute for the equilibrium constant Kc at 500 K. Express your answer in three
decimal places.
2NOCI (g) + 2NO(g) + Cl₂ (g)
Transcribed Image Text:QUESTION 8 The decomposition of NOCI (g) to NO (g) and Cl2 (g) was executed in a reactor at 500 K wherein 4.98 moles of NOCI was placed in a 1.50-liter reactor until the system reached equilibrium. At equilibrium, the contents of the reactor were found to contain 0.54 moles of Cl₂. Compute for the equilibrium constant Kc at 500 K. Express your answer in three decimal places. 2NOCI (g) + 2NO(g) + Cl₂ (g)
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