CHEMISTRY 202 Hour Exam III December 1, 2016 Dr. D. DeCoste Name Signature T.A. This exam contains 23 questions on 12 numbered pages. Check now to make sure you have a complete exam. You have two hours to complete the exam. Determine the best answer to the first 20 questions and enter these on the special answer sheet. Also, circle your responses in this exam booklet. Show all of your work and provide complete answers to questions 21, 22, and 23. 1-20 (60 pts.) 21 (16 pts.) 22 (21 pts.) 23 (23 pts.) Total (120 pts) Useful Information: PV = nrt R = 8.314 J/Kmol = 0.08206 Latm/molK k = Ae Ea/RT k 2 E ln( ) = a 1 [ k1 R T 1 1 T ] 2
Hour Exam III Page No. 1 1. How many of the following statements are true? I. Substance A is composed of polar molecules and substance B is composed of nonpolar molecules. We can conclude that substance A has a higher boiling temperature than substance B at the same conditions of atmospheric pressure. II. N 2 is expected to act more like an ideal gas than CO at the same conditions of pressure and temperature. III. IV. Ionization energies for neutral atoms and positive ions are always positive. The larger the hydrocarbon (a compound consisting solely of carbon and hydrogen), the higher the vapor pressure. a) 0 b) 1 c) 2 d) 3 e) 4 2. Which of the following has the lowest boiling point? a) C 6 H 14 b) H 2 O c) CH 3 CH 2 OH d) CH 3 OCH 3 e) C 3 H 8 3. The skeletal structure for CH 3 NCO, methyl isocyanate, is Methyl isocyanate has resonance structures, but one of these minimizes formal charge. For the resonance structure that minimizes formal charge, what is the expected C N C bond angle? a) 90 b) 109 c) 120 d) 180 4. Consider the following Lewis structure where E is an unknown element: Which of following could be the identity of element E? a) O b) S c) Br d) Xe e) Two of a-d could be the identity of E. 5. How many of the following molecules are polar? SF 4 NH 3 CH 4 H 2 O SO 2 OCl 2 OF 2 CF 4 XeCl 4 a) 2 b) 3 c) 5 d) 6 e) 7
Hour Exam III Page No. 2 6. Which of the following pairs of molecules/ions can be described with the same shape (molecular structure) although they have different geometries (electron-pair arrangements) around the central atom? a) 2 H 2 O and SO 4 b) SO 2 and XeCl 2 c) SF 4 and CF 4 d) CO 2 and I 3 e) At least two of the above (a-d) have the same shape but different geometries. 7. How many of the following statements help to explain why MgO forms an ionic compound with Mg 2+ and O 2 ions? I. The first ionization energy of Mg is positive, which tells us that Mg + is not stable as an isolated ion. II. The second ionization energy for Mg is more endothermic than the first ionization energy. III. The second ionization energy for Mg is exothermic. IV. While the first electron affinity for O is exothermic, the second electron affinity is endothermic. V. While the first electron affinity for O is endothermic, the second electron affinity is exothermic. a) 0 b) 1 c) 2 d) 3 e) 4 8. For which of the following mixtures is ΔH soln expected to be the most negative? a) C 6 H 14 and C 7 H 16 b) H 2 O and CH 3 OH c) CH 3 CH 2 OH and CH 3 OH d) C 7 H 16 and H 2 O e) (CH 3 ) 2 CO and H 2 O 9. Consider the hypothetical reaction A + 2B C for which the following data were collected [A] 0 [B] 0 Initial Rate (d[c]/dt) 0.10 M 0.20 M 1.8 10-4 Ms -1 0.10 M 0.10 M 1.8 10-4 Ms -1 0.20 M 0.20 M 7.2 10-4 Ms -1 Determine the value for the rate constant, k, is (units of M and s). a) 9.0 10-3 b) 1.8 10-2 c) 4.5 10-2 d) 9.0 10-2 e) 0.45
Hour Exam III Page No. 3 10-12. Recall the hydrogen chloride cannon demo from lecture in which a mixture of hydrogen gas and chlorine gas was initiated by a burning magnesium strip to produce hydrogen chloride gas. 10. Given the following bond energies, determine ΔH f for HCl(g). Bond H H Cl Cl H Cl Bond energy 432 kj/mol 339 kj/mol 427 kj/mol a) 344 kj/mol b) 41.5 kj/mol c) 83.0 kj/mol d) 83.0 kj/mol e) 41.5 kj/mol 11. The activation energy for the uncatalyzed reaction is 339 kj/mol HCl formed. Suppose we introduce a catalyst and find that the rate of the reaction increases by a factor of 5.00 10 3 at 25 C. Determine the activation energy of the catalyzed reaction in units of kj/mol HCl formed. Assume the catalyzed and uncatalyzed reactions have the same form and orders, and the preexponential factor, A, is the same for both. a) 39.8kJ/mol b) 211 kj/mol c) 318 kj/mol d) 335 kj/mol e) 360. kj/mol 12. How does ΔH for the catalyzed reaction compare to ΔH for the uncatalyzed reaction? a) ΔH catalyzed has the same sign and magnitude as ΔH uncatalyzed. b) ΔH catalyzed has the same sign but a different magnitude as compared to ΔH uncatalyzed. c) ΔH catalyzed has a different sign but the same magnitude as compared to ΔH uncatalyzed. d) ΔH catalyzed has a different sign and a different magnitude as compared to ΔH uncatalyzed. e) With the data given, we cannot tell how ΔH catalyzed and ΔH uncatalyzed compare. ------------------------------------------------------------------------------------------------------------------------------ 13. Consider the following data when studying the reaction aa Products: Determine [A] at t = 147.3 seconds. Time (seconds) [A] (M) 0 9.500 20.00 9.000 40.00 8.500 60.00 8.000 a) 5.742 M b) 5.818 M c) 5.963 M d) 6.379 M e) 6.742 M 14. The reaction aa Products for which [A] 0 = 5.00 M is 14.0% complete after 19.0 minutes and 31.4% complete after 42.7 minutes. Determine the rate law constant, k, for this reaction (using M and minutes). a) 1.71 10-3 b) 7.94 10-3 c) 0.0368 d) 0.103 e) 0.226
Hour Exam III Page No. 4 15. The reaction NO(g) + O 3 (g) NO 2 (g) + O 2 (g) is known to be first order with respect to O 3 (g). An experiment is run at 25 C in which [O 3 ] = 5.00 M and the following data were collected: Time (seconds) [NO] (M) 0 10.0 10 2 20.0 6.67 10 2 40.0 5.00 10 2 60.0 4.00 10 2 80.0 3.33 10 2 100.0 2.86 10 2 120.0 2.50 10 2 Determine the value of the rate constant, k, for the reaction at 25 C (using M and seconds). a) 5.00 10 4 b) 2.50 10 3 c) 0.0173 d) 0.0500 e) 0.250 16. The following mechanism is proposed for the decomposition of A 2 B(g) to A 2 (g) and B 2 (g): 1. A 2 B(g) A 2 (g) + B(g) 2. A 2 B(g) + B(g) A 2 (g) + B 2 (g) d [B ] Using rate = 2, use the steady-state approximation to determine which of the dt following best represents the rate law constant for the proposed mechanism at extremely high concentrations of A 2 B. a) k 1 b) k 1 c) k 1 k 2 d) k k 1 2 k 1 e) k 1 k 1 17. Consider the following three reactions: aa Products rate = k bb Products rate = k[b] cc Products rate = k[c] 2 Assume you begin each of the reactions at the same time with the same initial concentration ([A] 0 = [B] 0 = [C] 0 = 1.00 M). If the value of the rate constants (k) is the same for each reaction, determine the order from highest to lowest concentration when [C] = 0.70 M. a) [A] > [B] > [C] b) [B] > [C] > [A] c) [A] > [C] > [B] d) [C] > [B] > [A] e) We cannot tell without an actual value for the rate law constant, k.
Hour Exam III Page No. 5 18. The reaction 2A + B C has the following proposed mechanism. Determine the rate law. Note: the rate law constant given in the choices could be a combination of the individual rate law constants of the elementary steps of the mechanism. Step 1: A + B D (fast equilibrium) Step 2: D + B E (fast equilibrium) Step 3: E + A C + B (slow) a) k[a] b) k[a] 2 [B] c) k[a][b] 2 d) k[a][b] e) k[a] 2 [B] 2 --------------------------------------------------------------------------------------------------------------------------- 19-20. Choose the best graph for the plots described below. A graph can be chosen once, more than once, or not at all. a) b) c) d) e) 19. A plot of 1/[A] vs. t for a reaction of the type aa products which is second-order in A. [A] 20. A plot of [A] vs. t for a reaction of the type aa products which is second-order in A. [B]