- The Equilibrium Constant Kp 5 4x10 2 For The Following Reaction In The Gas Phase At A Given Temperature T H O G 1 (34.03 KiB) Viewed 38 times
The equilibrium constant Kp = (5.4x10^-2) for the following reaction in the gas phase at a given temperature T: H₂O(g) +
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The equilibrium constant Kp = (5.4x10^-2) for the following reaction in the gas phase at a given temperature T: H₂O(g) +
The equilibrium constant Kp = (5.4x10^-2) for the following reaction in the gas phase at a given temperature T: H₂O(g) + Cl₂O(g) = 2 HOCI(g) Calculate the pressure (in bar) of H₂O(g) at equilibrium in the reaction vessel at temperature T if the initial pressures of H₂O(g) and Cl₂O(g) are both equal to (3.800x10^-1) bar. Use constants from the textbook. Calculate the answer to 2 significant figures. Use scientific notation, do not enter units. Note: Your answer is assumed to be reduced to the highest power possible. Your Answer: x10 Answer