Tuesday, January 14, 2020

Physical Chemistry

Physical Chemistry II. Final Exam Your Name: Your Student Number: 110 Normal Points + 10 Bonus Points If you get 110 points out of 120 points, you will get the full 40% assigned to the midterm exam. Your scores 1) 2) 3) 4) 5) 6) Total: out of 25 out of 20 out of 20 out of 15 out of 20 out of 20 out of 120 * All the problems are connected. In other words, to solve the problem, you may need the information and/or answers given in other problems.All necessary information is basically given. Also please consult the supplementary material handed out to you. ) (25 pts) a) (6 pts) The translational energy states in a cubic container are given by the following equation. Derive the following equation for the molecular translational partition function. You will need the following integral relation. ? ? 0 e n 2 ? ? ? dn ? ? ? 4? ? ? ? ? 1/ 2 Answers) ( ) ? ? ( ) ( ) ? ? ? ( ) (? ) ( ) ( v ( ( ) ) ) ( a^3 =V ) ( ) b) (3 pts) If the vibrational energy levels are given as follows, (b-1) where is the zero of vibrational energy? (b-2) What approximation has been made regarding the vibrational motion? Answers) (b-1) The zero of vibrational energy is at the bottom of the internuclear potential well. 2 pts) (b-2) The vibrational motion is approximated as an harmonic oscillator. (1 pt) c) (6 pts) Derive the following equation for the molecular vibrational partition function. You will need the relation applicable when x is less than 1. ?xn ? ?0 ? ? 1 1? x Answers) ( ) ? ( ) ( ) ? ( ) ? ( ) ( ) d) (2 pts)If the molecular electronic partition function can be approximated as follows, where is the zero of electronic energy? Answers) The zero of the electronic energy is taken to be the separated atoms at rest in their electronic states (2 pts). ) (3 pts) If the molecular rotational partition function is given by the following equation, what assumptions have been made? Answers) 1) The molecule is approximated to be a rigid-rotor. (1 pt) 2) The temperature is much higher than the rotatio nal temperature. (2 pts) f) (5 pts, no partial points) Based on the answers and information given above, write down the equation for the molecular partition function of a diatomic molecule. Answers) ( No partial points. ) ( ) 2) (20 pts) a) (3 pts, no partial points)For a diatomic ideal gas, write down the relationship between the partition function (Q) and the molecular artition function (q). Answers) 3pts. No partial points. ( ) ( ) b) (7 pts) Derive the following equation. Answer) ? ( ) ( )( ) ? ( ( ) ( ) ) ( ) ( ( ) ) ? ( ) ( ) ( ) ? ( ( ) ) ) ( ? ( ) ( ) ( ) (3 pts) (4 pts) )( ( ) ( ) (7 pts) ) ( ( ( ) ) ( ) ) ( c) (5 pts) A is given as follows. Express S in terms of Q. Answers) Path1 (1 pt) (2 pts) ( ( ) ( 5 pts) ) Path2 ( ) ? ( ) ? ? ? (2 pts) ? ? ? (3 pts) ? ? ? ? ? ? ? (4 pts) ( ) ? ? ( ) ( ) ? ? ( ) ( ) (5 pts) d) (5 pts) Express S in terms of q. Use Stirling’s approximation (ln N! = N ln N – N). Answers) ( ) ( ( ) ) (2 pts) ( ) [ ( ) ] ( ) (5 pts) ) (20 pts) a) (10 pts) Calculate the standard molar entropy of Br2(g) at 298. 15 K. (10 pts if the value and unit is correct. 3 pts deduction if the value is wrong but within 20 percent of the correct answer. 3 pts deduction whenever the unit is not written or incorrect. 7 pts deduction if the value is wrong and outside 20 percent of the correct answer. ) Answers)For ( ) ( ) (3 pts) Then, ( ( ) ) ( ) ( ( ( ( ) ) ( ) ) ) 10 pts if the value and unit is correct. 3 pts deduction if the value is wrong but within 20 percent of the correct answer. 3 pts deduction whenever the unit is not written or incorrect. pts deduction if the value is wrong and outside 20 percent of the correct answer. b) (10 pts) Calculate the standard molar entropy of Br2(l) at 298. 15 K. The normal boiling point of Br2(l) is 332. 0 K, the molar enthalpy of vaporization at 332. 0 K is 29. 54 kJmol-1, the molar heat capacity of Br2(l) is 75. 69 JK-1mol-1 and the molar heat capacity of Br2(g) is 36. 02 JK-1mol-1. (10 pts if the value and unit is correct. 3 pts deduction if the value is wrong but within 20 percent of the correct answer. 3 pts deduction whenever the unit is not written or incorrect. pts deduction if the value is wrong and outside 20 percent of the correct answer. ) ( ) () Answers) Standard molar entropy ? 3 pts) And () ( ) (? ( ) -Liquid to boiling point ( -At boiling point ) ( ) ( -Gas ( ) ( ) ) () ( ) ( ) 10 pts if the value and unit is correct. 3 pts deduction if the value is wrong but within 20 percent of the correct answer. 3 pts deduction whenever the unit is not written or incorrect.7 pts deduction if the value is wrong and outside 20 percent of the correct answer. 4) (15 pts) a) (5 pts. No partial points) Derive the partial derivative of S with respect to T at constant P in terms of Cp and T. ) ( ) ( ) From > ( ) ( ) ( ) From (1) and (2), And ( ) ( ) [ ( ) ( ) ( ) ( ) ] ——-(2) ( ) ( ) ——-(1) Answers) Total derivative of > ( ) (5 pts. No partial points) b) (2 pts. No partial points) What is the natural variables of U? Answers) S and V c) (2 pts. No partial points) Express dU in terms of dS, dV, T, P. (Answers: dU = TdS – PdV) Answers) d) (6 pts, No partial points) Consider V and T to be the independent variables of U. Derive the expression of dU in terms of dV, dT, P, T, V, CV. Answers) ( ) ( ) ( ) ( ) ( ) ( ) ( ) ( ) ( ) ( ) ( ) ( ) ( ) ( ) + ( ) ( ) ( ) ( ) ( ) ( ) + ( ) ( ) , V and T are independent to U. ) 5) (20 pts) a) (5 pts) Derive the following equation. Answers) ( ) ? ? ( ) ( ) ( ( ) ( ) (1 pt) ( ) (2 pts) (3 pts) ) (5 pts) b) (5 pts) Derive the following equation. Answers) ( ) ( ) ( ( ) ( ( ) ) ) (1 pt) ( ) ( ( ( ) ( ) ) ( ) ) ( ) ( ) ( ( ) ) (3 pts) (5 pts) c) (5 pts) Derive the following equation. Answers) ( ) ( ) ( ( ) (1 pt) ) ( [( ) ] ( [( ) ] ) ) [( ) ( ) ( ) ( ) ( ) [( ) [( ) ( ) ] (3 pts) [( ) ] ] (5 pts) ] d) (5 pts) Derive the following equation and express q0 of c) as a function of T, V, etc. for the ca se of a diatomic molecule. Answer) ( ? ) ? ? ( )? ? ( ) ? [ ? ( )? ] ( ] ( ) [( (2 pt) ( ) ) ] [( ) ] ? ( ) [( ( ) ) ( ) [( ) ] (5 pts) 6) (20 pts)Consider the following reaction. a) (5 pts) What is ? rH of this reaction at 298. 15 K? Write down a numerical value with a unit. Use the given JANAF table. Answers) ? fH(H2) = 0 and ? fH(N2) = 0 ? rH = ? fH(NH3) –[ 1. 5* ? fH(H2)+0. 5* ? fH(N2) ] (2 pts) =-46. 898kJ/mol (5 pts, no partial points for wrong value. 2 pts deduction for wrong unit) b) (5 pts) What is q0/V for NH3 at 298. 15 K? Use the given JANAF table. Answers) ( ) (1 pt) ) ( ) ( ( ( ) ) ( ) )( =4. 960*1033 m-3 (5 pts) 5 pts, no partial points for wrong value. pts deduction for wrong unit c) (5 pts. No partial points) Suppose that this reaction occurs at 500 K and a total pressure of one bar and we start with three moles of H2(g), one mole of N2(g) and no NH3(g). Express G(? ) in terms of only ? and numerical values. Use the given JANAF table. Answers) ( ) ( ) ( ( ) ) ( ( ) )[ ( ( ) ( ( ) ( ( ) ) ) ) ) ( ( ) ) ] ( ( ) ) ] ( ) ( ) ( ) [( ( ) d) (5 pts. No partial points) Calculate the ? value at equilibrium and KP. Use the given JANAF table. Answers) ( ) ( ) ( ) ( ( ) ( ) ) ( ( ) ) ( ( ) (3 pts) ) ( ) ( ( ( ( ) ) ) ) (2 pts)

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