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Unformatted text preview: Howard (clh2528) – H05: Equilibrium 2 – mccord – (51620) 1 This printout should have 15 questions. Multiplechoice questions may continue on the next column or page – find all choices before answering. 001 10.0 points A 2.000 liter vessel is filled with 4.000 moles of SO 3 and 6.000 moles of O 2 . When the reaction 2 SO 3 (gas) ⇀ ↽ 2 SO 2 (gas) + O 2 (gas) comes to equilibrium a measurement shows that only 1.000 mole of SO 3 remains. How many moles of O 2 are in the vessel at equilib rium? 1. 7.500 mol correct 2. 3.750 mol 3. 7.000 mol 4. 12.000 mol 5. None of these is correct. Explanation: Initially, [SO 3 ] = 4 mol 2 L = 2 M [O 2 ] = 6 mol 2 L = 3 M 2 SO 3 (g) ⇀ ↽ 2 SO 2 (g) + O 2 (g) ini, M 2 3 Δ, M 2 x 2 x x eq, M 2 2 x 2 x 3 + x At equilibrium, [SO 3 ] eq = 1 mol 2 L = 0 . 5 M, so 2 2 x = 0 . 5 2 x = 1 . 5 x = 0 . 75 Thus [O 2 ] = 3 + x = 3 . 75 M mol O 2 = (3 . 75 mol / L) (2 L) = 7 . 5 mol . 002 10.0 points Suppose the reaction A ⇀ ↽ B has an equilibrium constant of 1.0 and the ini tial concentrations of A and B are 0.5 M and 0.0 M, respectively. Which of the following is the correct value for the final concentration of A? 1. 1.00 M 2. 0.500 M 3. None of these is correct. 4. 0.250 M correct 5. 1.50 M Explanation: K = 1 . [A] ini = 0 . 5 M [B] ini = 0 M A ⇀ ↽ B ini, M 0.5 0.0 Δ, M x x eq, M . 5 x x K = [B] [A] = 1 . x . 5 x = 1 . x = 0 . 25 M [A] = 0 . 5 x = 0 . 25 M 003 10.0 points Suppose the reaction H 2 (g) + I 2 (g) ⇀ ↽ 2 HI(g) has an equilibrium constant K c = 49 and the initial concentration of H 2 and I 2 is 0.5 M and HI is 0.0 M. Which of the following is the correct value for the final concentration of HI(g)? 1. 0.778 M correct Howard (clh2528) – H05: Equilibrium 2 – mccord – (51620) 2 2. 0.219 M 3. 0.599 M 4. 0.250 M 5. 0.389 M Explanation: K c = 49 [H 2 ] ini = 0 . 5 M [I 2 ] ini = 0 . 5 M [HI] ini = 0 M H 2 (g) + I 2 (g) ⇀ ↽ 2 HI(g) Ini, M 0.5 0.5 Δ, M x x +2 x Equil, M 0 . 5 x . 5 x 2 x K c = [HI] 2 [H 2 ] [I 2 ] 49 = (2 x ) 2 (0 . 5 x ) 2 7 = 2 x . 5 x 7(0 . 5 x ) = 2 x 3 . 5 7 x = 2 x 3 . 5 = 9 x x = 3 . 5 9 = 0 . 389 M Looking back at our equilibrium values, we see that the final concentration of HI is equal to 2 x , so 2(0.389) = 0.778 M. 004 10.0 points At T = 400 ◦ C, K c = 16 for the gasphase reaction A + B ⇀ ↽ C + D Starting with 3 . 19 moles each of A and B in a 5.00 liter container, what will be the equilib rium concentration of C at this temperature? Correct answer: 0 . 5104 M. Explanation: [A] = 3 . 19 mol 5 L = 0 . 638 M T = 400 ◦ C [B] = 3 . 19 mol 5 L = 0 . 638 M K c = 16 A + B ⇀ ↽ C + D ini, M . 638 . 638 Δ, M x x x x eq, M . 638 x . 638 x x x [C][D] [A][B] = 16 x 2 (0 . 638 x ) 2 = 16 x . 638 x = 4 x = 2 . 552 4 x x = [C] = 0 . 5104 M 005 10.0 points The system H 2 (g) + I 2 (g) ⇀ ↽ 2 HI(g) is at equilibrium at a fixed temperature with...
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This note was uploaded on 03/22/2011 for the course CH 302 taught by Professor Holcombe during the Spring '07 term at University of Texas.
 Spring '07
 Holcombe
 Chemistry, Equilibrium, Mole

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