Sunday, November 24, 2019
Equilibrium Constant and Reaction Quotient Example
Equilibrium Constant and Reaction Quotient Example In chemistry, the reaction quotient Q relates the amounts of products and reactants in a chemical reaction at a given point in time. If the reaction quotient is compared with the equilibrium constant, the direction of the reaction may be known. This example problem demonstrates how to use the reaction quotient to predict the direction of a chemical reaction towards equilibrium.Problem:Hydrogen and Iodine gas react together to form hydrogen iodide gas. The equation for this reaction isH2(g) I2(g) ââ â 2HI(g)The equilibrium constant for this reaction is 7.1 x 102 at 25 à °C. If the current concentration of gases are[H2]0 0.81 M[I2]0 0.44 M[HI]0 0.58 Mwhat direction will the reaction shift to reach equilibrium?SolutionTo predict the direction of equilibrium of a reaction, the reaction quotient is used. The reaction quotient, Q, is calculated in the same way as the equilibrium constant, K. Q uses the current or initial concentrations instead of the equilibrium concentrations use d to calculate K. Once found, the reaction quotient is compared to the equilibrium constant. If Q K, there there are more reactants present that at equilibrium and reaction will shift to the right.If Q K, then there are more products present than equilibrium and the reaction will need to produce more reactants shifting the reaction to the left.If Q K, then the reaction is already at equilibrium and there will be no shift. Step 1 - Find QQ [HI]02/[H2]0à ·[I2]0Q (0.58 M)2/(0.81 M)(0.44 M)Q 0.34/.35Q 0.94Step 2 - Compare Q to KK 7.1 x 102 or 710 Q 0.94 Q is less than K Answer:The reaction will shift to the right to produce more hydrogen iodide gas to reach equilibrium.
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