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Published byMarjut Lehtilä Modified over 6 years ago
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Unit 2, Lesson 10: Equilibrium Calculations – Part II
These calculations are extremely difficult. During this section of the unit, it will be especially important to pay close attention to the examples given, and to do the assigned practice problems.
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Example C A certain amount of NO2(g) was introduced into a 5.00 L bulb. When equilibrium was attained according to the equation 2 NO(g) + O2(g) NO2(g), the concentration of NO(g) was M. If Keq has a value of 24.0, how many moles of NO2(g) were originally put into the bulb? 10 min
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Brain Break!
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The Reaction Quotient In order to solve the next problem, we must consider the reaction quotient, or Q. Q is essentially a “trial value” for Keq; it is calculated using the same expression, but using the initial concentrations. We can compare Q to Keq to predict the direction of an equilibrium shift!
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Comparing Q to Keq If Q = Keq, then the system is at equilibrium.
If Q < Keq, then the ratio of products to reactants is too small, and the reaction must shift to produce more products. If Q > Keq, then the ratio of products to reactants is too large, and the reaction must shift to produce more reactants.
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Example D Keq = 49 for 2 NO(g) + O2(g) NO2(g). If 2.00 mol of NO(g), 0.20 mol of O2(g) and 0.40 mol of NO2(g) are put into a 2.0 L bulb, which way will the reaction shift in order to reach equilibrium? Find Q and compare to Keq – 5 min
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Homework Pg. 71 #50-54 15 min
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