The equilibrium reaction equation is below: CO(g) + Cl2(g) = COC1»(g) In this gas-phase reaction, carbon monoxide is reacted with chlorine gas over a bed of porous activated carbon to produce phosgene. An evacuated 1.00 L flask at 20.0 °C is filled with 0.258 mol CO and 0.592 mol Cl2 and sealed. After equilibrium is established, 0.0349 mol phosgene is present. 1. Write the concentration equilibrium expression for this reaction. 2. While we do not yet know the equilibrium constant, Ke, for this reaction, a relationship between the reaction quotient, Qe, and Ke can be determined. With these initial conditions, is Qc less than, equal to, or greater than K.

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The equilibrium reaction equation is below: CO(g) + Cl2(g) = COC1»(g) In this gas-phase reaction, carbon monoxide is reacted with chlorine gas over a bed of porous activated carbon to produce phosgene. An evacuated 1.00 L flask at 20.0 °C is filled with 0.258 mol CO and 0.592 mol Cl2 and sealed. After equilibrium is established, 0.0349 mol phosgene is present. 1. Write the concentration equilibrium expression for this reaction. 2. While we do not yet know the equilibrium constant, Ke, for this reaction, a relationship between the reaction quotient, Qc, and Ke can be determined. With these initial conditions, is Qc less than, equal to, or greater than K.