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11 Nov 2019
All questions refer to the following reactions and their associated equilibrium constants. All substances are gases. Assume you start with 1.0 mol of each reactant (no products) in a 1.0 L container then the system is allowed to reach equilibrium. The temperature is 300 K. The equations are lettered for ease of reference in referring to each. A. H2 + Br2 2 HBr Kc = 1.9 x 1017 K-= 377 KP0.15 D. CH4 + H20 ê·¼ CO + 3 H2 KP = 7.7x 1024 Answer in the blank. Provide a brief explanation for your answer. Questions with a star () may have more than one correct answer. Report all correct answers. 1. At equilibrium, which of the following will be highest in concentration? C. Brcl d. Clz b. HBr e. there is no way to tell without calculating 3. Which of the reactions will get to equilibrium fastest? b. B c. C d. D e. there is no information given to determine the answer
All questions refer to the following reactions and their associated equilibrium constants. All substances are gases. Assume you start with 1.0 mol of each reactant (no products) in a 1.0 L container then the system is allowed to reach equilibrium. The temperature is 300 K. The equations are lettered for ease of reference in referring to each. A. H2 + Br2 2 HBr Kc = 1.9 x 1017 K-= 377 KP0.15 D. CH4 + H20 ê·¼ CO + 3 H2 KP = 7.7x 1024 Answer in the blank. Provide a brief explanation for your answer. Questions with a star () may have more than one correct answer. Report all correct answers. 1. At equilibrium, which of the following will be highest in concentration? C. Brcl d. Clz b. HBr e. there is no way to tell without calculating 3. Which of the reactions will get to equilibrium fastest? b. B c. C d. D e. there is no information given to determine the answer
Keith LeannonLv2
21 Oct 2019