1. The following equilibrium process has been studied at 230°C: 2NO(g) + 0,(g) 2NO,(g) In one experiment, the concentrations of the reacting species at equilibrium are found to be [NO] = 0.0542 M, [0,] = 0.127 M, and [NO,] = 15.5 M. Calculate the equilibrium constant (K.) of the reaction at this temperature. %3D

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I. Problems involving Kc & Kp
1. The following equilibrium process has been studied at 230°C: 2NO(g) + 0,(g) 2NO,(g)
In one experiment, the concentrations of the reacting species at equilibrium are found to be [NO] = 0.0542 M,
[0,] = 0.127 M, and [NO,] = 15.5 M. Calculate the equilibrium constant (K.) of the reaction at this temperature.
Note: Express your final answer in scientific notation. Round off into 2 decimal places. Example: 1.11 x 101or
1.11 x 10^(-11)
Transcribed Image Text:I. Problems involving Kc & Kp 1. The following equilibrium process has been studied at 230°C: 2NO(g) + 0,(g) 2NO,(g) In one experiment, the concentrations of the reacting species at equilibrium are found to be [NO] = 0.0542 M, [0,] = 0.127 M, and [NO,] = 15.5 M. Calculate the equilibrium constant (K.) of the reaction at this temperature. Note: Express your final answer in scientific notation. Round off into 2 decimal places. Example: 1.11 x 101or 1.11 x 10^(-11)
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