chem1a-fall00-mt2-Pines-exam

chem1a-fall00-mt2-Pines-exam - Chemistry 1A Fall 2000...

Info iconThis preview shows page 1. Sign up to view the full content.

View Full Document Right Arrow Icon
This is the end of the preview. Sign up to access the rest of the document.

Unformatted text preview: Chemistry 1A Fall 2000 ________________________________________________________________________ Midterm Exam II, version A October 17, 2000 (Closed book, 75 minutes, 145 points) Name: ______________________ Section Number: _______________ SID: _______________________ T.A. Name: ___________________ Exam information, extra directions, and useful hints to maximize your score: • Write your name on all ten pages. • There are two parts to the exam: 1) multiple choice and 2) short answer problems. • For the multiple choice problems, fill in the ScantronTM form AND circle the answer on your exam. • Answer the questions you know how to do first, then work on the questions you skipped. • Show all work for which you want credit on the short answer problems and do not forget units! • You may use the back side of the exam pages for scratch paper. ________________Unit Prefixes ________________ milli, m (x 10-3) micro, ì (x 10-6) nano, n (x 10-9) kilo, k (x 103) mega, M (x106) giga, G (x 109) Some possibly useful information: Ephoton = hí = hc/ë A=εc vrms= 3RT M Ionization Energy (kJ/mol) 3 EKin= nRT 2 PV= nRT Z2 En = − 2 R ∞ n Na Ne Electron Affinity (kJ/mol) 496 2081 -53 ~0 T(K) = T(°C) + 273.15 Part 1: Multiple Choice (Do not write in this box; it is for official use only.) Page Points 2-5 6-7 8-10 Total / 60 / 40 / 45 / 145 Page 2 of 2 Name:_________________________________________ Part 1: Multiple Choice (5 pts each, 60 pts total) Instructions: Bubble in the correct answer on your Scantron sheet AND circle the answer on your exam. Each question has one correct answer. 1.) The answer to question 1 is A. Bubble in A on your Scantron™ form. 2.) What is the electron affinity of Na+? A.) -2081 kJ/mol B.) -496 kJ/mol D.) 53 kJ/mol 3.) C.) ~0 kJ/mol E.) 2081 kJ/mol Select the correct energy level diagram and absorption spectrum pair for He+? A.) B.) D) C.) E) Page 3 of 3 Name:_________________________________________ For questions 4 and 5, refer to the energy level diagram for the hydrogen atom shown on page 1. 4.) Can hydrogen atoms in the ground (lowest energy) state absorb a photon of energy 1.75 x 10-18 J? A.) Yes, because hydrogen atoms can absorb any energy in the range from zero to 2.18 x 10-18 J. B.) Yes, because the electron is promoted to an energy between the second and third energy levels. As the electron drops to the second level, the hydrogen atoms release the excess energy. C.) Yes, because this represents the energy difference between the ground state and second energy level. D.) No, because this much energy would cause the atom to be ionized. E.) No, because this energy does not correspond to the energy difference between the ground state and any other energy level. 5.) Can hydrogen atoms in the ground (lowest energy) state absorb a photon of energy 3.00 x 10-18 J? A.) Yes, because this energy corresponds to the energy difference between the ground state and a quantized energy level with energy greater than zero. B.) Yes, the energy of the light is greater than what is required to ionize the atom. The excess energy would be converted into kinetic energy. C.) No, it is impossible for atoms to absorb light whose energy is greater than their ionization energy. D.) No, atoms can only absorb light whose energy corresponds to the difference between the ground state and another level. E.) No, light of this energy would not be enough to excite the electron from the ground state to the first energy level. Page 4 of 4 6.) Which has a higher ionization energy than Ne? A.) Ar 7.) C.) F D.) Na+ B.) 1 C.) 2 D.) 3 Which orbital has the quantum numbers n = 3 and A.) 2s 9.) B.) F E.) Na How many unpaired electrons exist in the ground state electronic configuration [Ar]4s23d8? A.) 0 8.) Name:_________________________________________ B.) 2p C.) 3s D.) 3p E.) 4 = 1? E.) 4d Identify X from the configuration X+ (1s22s22p63s2). A.) Na B.) Mg C.) Al D.) Si E.) P Page 5 of 5 10.) Name:_________________________________________ For one mole of an ideal gas at constant volume, X = ? A.) molar mass 11.) B.) vrms C.) R D.) V E.) P Absorption of what color light will induce the 4à 6 transition in He+? A.) Infrared (IR) D.) Blue B.) Red E.)Ultraviolet (UV) C.) Green Page 6 of 6 Name:_________________________________________ Part 2: Short Answer Problems (85 pts total) Instructions: Enter answers in the boxes provided. Show your work. Where requested write explanations in fifteen words or less. (40 pts) 1.) Each figure in parts a-d contains at least two errors. In the space provided, specify two of the errors and provide a brief explanation of each one. a.) Error 1: Error 2: b.) Error 1: Error 2: . Page 7 of 7 c.) Error 1: Error 2: d.) Error 1: Error 2: Name:_________________________________________ Page 8 of 8 Name:_________________________________________ (45 pts) 2.) 1) Ozone (O3) gas is placed in a 1.0 L glass vessel at a pressure of 2.0 atm and a temperature of 300 K. Assume ideal behavior. a) What are the number of moles and the mass of ozone present? Moles Ozone: b) Shining ultraviolet light on O3 induces the following reaction: 2 O3 (gas) à 3 O2 (gas) If half of the ozone present reacts, what is the final mole fraction of each gas in the vessel? Mole Fraction O2: Mole Fraction O3 : Page 9 of 9 Name:_________________________________________ c.) Calculate the partial pressure of each gas and the total pressure. Pressure O3: Total Pressure: d) The graph below depicts the speed distribution of O3 molecules at 300K. Using the same axes, sketch the distribution of O3 at 1200K. ...
View Full Document

This note was uploaded on 03/30/2010 for the course CHEM 1A taught by Professor Nitsche during the Spring '08 term at Berkeley.

Ask a homework question - tutors are online