Chem 1100 Pre-Test 3 Multiple Choice Identify the choice that best completes the statement or answers the question. 1. Determine the oxidation number of the underlined element in K 2CO 3. a. 1 b. 2 c. 4 d. +4 e. +5 2. Determine the oxidation number of the underlined element in P 5O 10. a. +3 b. 2 c. +4 d. 1 e. +5 3. What are the oxidation numbers (oxidation states) of the elements in K 2Cr 2O 7? a. K = +1 Cr = +7 O = 2 b. K = +1 Cr = +12 O = 2 c. K = +1 Cr = +6 O = 2 d. K = +1 Cr = +8 O = 2 e. K = +2 Cr = +6 O = 2 4. Which response contains all of the following that are oxidation-reduction reactions and no others? I. PCl 3 + 3H 2O 3HCl(aq) + H 3PO 3(aq) II. Fe 2O 3(s) + 3CO(g) 2Fe(s) + 3CO 2(g) III. CaCO 3(s) + 2HClO 3(aq) Ca(ClO 3) 2(aq) + CO 2(g) + H 2O a. I b. II c. III d. II and III e. I and II 5. What is the oxidizing agent in the following reaction? 8H + (aq) + 3C 2H 5OH(aq) + Cr 2O 7 2 (aq) 2Cr 3+ (aq) + 3C 2H 4O(aq) + 7H 2O a. H + b. Cr 2O 7 2 c. Cr 3+ d. C 2H 5OH e. H 2O 6. What is the reducing agent in the following reaction? 6KOH(aq) + 3Cl 2(g) KClO 3(aq) + 5KCl(aq) + 3H 2O a. KOH
b. Cl 2 c. KClO 3 d. KCl e. H 2O 7. In the following reaction NaClO 3 is. 5NaClO 3(aq) + 3H 2O + 3I 2(s) 6HIO 3(aq) + 5NaCl(aq) a. the oxidizing agent and is oxidized. b. the oxidizing agent and is reduced. c. the reducing agent and is oxidized. d. the reducing agent and is reduced. e. neither an oxidizing agent nor a reducing agent. 8. An open-tube manometer is used to measure the pressure in a flask. The atmospheric pressure is 756 torr and the Hg column is 8.5 cm higher on the open end. What is the pressure in the flask? a. 764.5 mmhg b. 841 cm Hg c. 841 torr d. 671 torr e. 747.5 mm Hg 9. A sample of gas occupies a volume of 1.60 L at a pressure of 720. torr. What would be the pressure of this gas if it were compressed to 1.20 L at the same temperature? a. 540. torr b. 360. torr c. 180. torr d. 960. torr e. 1440 torr 10. A gas sample occupies 1.00 L at 120. C and 1.00 atm. What volume will it occupy at STP? a. 1.14 L b. 1.44 L c. 0.846 L d. 0.782 L e. 0.695 L 11. A sample of neon occupies 4.50 liters at 30.0 C and 2.50 atmospheres. What volume will it occupy at 1000. torr and 300. C? a. 4.52 L b. 4.48 L c. 16.2 L d. 8.96 L e. 1.25 L 12. What is the volume occupied by 10.0 grams of NH 3 at STP, if it behaves ideally? a. 10.6 L b. 13.2 L c. 14.3 L d. 14.9 L e. 15.8 L
13. What is the molecular weight of a gas if 0.104 gram of the gas occupies 48.7 ml at STP? a. 5.06 g/mol b. 28.2 g/mol c. 34.5 g/mol d. 40.0 g/mol e. 47.8 g/mol 14. How many moles of Argon would occupy 75 ml at 33 C and 1.07 atm? a. 3.19 b. 2.96 10 2 c. 3.19 10 3 d. 3.15 10 5 e. 0.313 15. Calculate the density of O 2 gas (in g/l) at 1.22 atm and 25 C. a. 1.74 g/l b. 1.60 g/l c. 0.871 g/l d. 19.0 g/l e. 0.798 g/l 16. A mixture of gases containing 21.0 g of N 2, 106.5 g of Cl 2 and 12.0 g of He at 14 C is in a 50.0-L container. What is the total pressure in the vessel? a. 1.8 atm b. 2.2 atm c. 2.5 atm d. 2.7 atm e. 3.2 atm 17. A mixture of gas contains 0.251 g Ar and 1.95 g Xe and has a total pressure of 2.33 atm. What are the partial pressures of each gas? P Ar (atm) P Xe (atm) a. 1.61 0.72 b. 0.72 1.61 c. 1.17 1.16 d. 0.27 2.06 e. 0.30 2.03 18. What is the mole fraction of O 2 in a mixture of 2.00 g He, 12.0 g O 2, and 17.0 g N 2? a. 0.608 b. 0.253 c. 0.410 d. 0.200 e. 0.267 19. A 300.-mL sample of hydrogen, H 2, was collected over water at 21 C on a day when the barometric pressure was 748 torr. What mass of hydrogen is present? The vapor pressure of water is 19 torr at 21 C. a. 0.0186 g b. 0.0241 g c. 0.0213 g d. 0.0269 g
e. 0.0281 g 20. What total volume of gas (at STP) is produced by the electrolysis of 4 moles of H 2O? 2H 2O(g) 2H 2(g) + O 2(g) a. 67.2 L b. 134.4 L c. 3.0 L d. 112 L e. 5.0 L 21. Calculate the weight of KClO 3 that would be required to produce 29.52 liters of oxygen measured at 127 C and 760. torr. a. 7.82 g b. 12.2 g c. 14.64 g d. 24.4 g e. 73.5 g 2KClO 3(s) 2KCl(s) + 3O 2(g) 22. What is the order of increasing rate of effusion for the following gases? Ar, CO 2, He, N 2 a. N 2 < Ar < CO 2 < He b. Ar < CO 2 < He < N 2 c. Ar < He < CO 2 < N 2 d. CO 2 < N 2 < Ar < He e. CO 2 < Ar < N 2 < He 23. The van der Waals constant, b, in the relationship is a factor that corrects for a. deviations in the gas constant, R. b. the attractive forces between gas molecules. c. the tendency of the gas molecules to ionize. d. the average velocities of the gas molecules. e. the volume occupied by the gas molecules. 24. Which of the following statements is false? An increase in temperature will a. increase the molecular weight of the gas. b. increase the velocity of the gas molecules. c. increase the number of collisions per second. d. increase the average kinetic energy of the molecules. e. increase the root-mean-square velocity of the molecules. 25. Which of the following gases is expected to have the largest value for its van der Waals constant "b"? a. Ne b. O 2 c. H 2 d. CO e. CO 2
26. Calculate the pressure of 1000. grams of ethylene gas (C 2H 4) in a 10.0 L container at 30.0 C. Do not assume ideal gas behavior. a = 4.471 L 2 -atm/mol 2, b = 0.05714 L/mol. a. 35.7 atm b. 168 atm c. 54.6 atm d. 68.0 atm e. 88.8 atm 27. Which of the following interactions are the strongest? a. hydrogen bonding force b. ion-ion interactions c. permanent dipole force d. dispersion force e. London force 28. The boiling points of the halogens increase in the order F 2 < Cl 2 < Br 2 < I 2 due to the resulting increasing interactions. a. ion-dipole b. hydrogen-bonding c. ion-ion d. dispersion forces e. permanent dipole-dipole 29. The term used to describe resistance to flow of a liquid is. a. surface tension b. capillary action c. viscosity d. vapor pressure e. vaporization 30. Which of these liquids would have the highest surface tension at 25 C? a. Br 2 b. H 2O c. CCl 4 d. C 5H 12 e. CH 3OCH 3 31. Which of the following boils at the highest temperature? a. C 2H 6 b. C 3H 8 c. C 4H 10 d. C 5H 12 e. C 6H 14 32. Calculate the amount of heat required to raise the temperature of 165 g of water from 12.0 C to 88.0 C. (Sp. heat of H 2O = 4.18 J/g C) a. 52.4 kj b. 1.93 J c. 60.7 kj d. 1.46 kj e. 15.6 J
33. Calculate the amount of heat (in joules) required to convert 92.5 g of water at 25.0 C to steam at 108.0 C. (Sp. heat of H 2O = 4.18 J/g C, Sp. heat of H 2O(g) = 2.03 J/g C, heat of vap. of H 2O = 2.260 kj/g) a. 2.26 10 5 J b. 3.05 10 4 J c. 2.40 10 5 J d. 2.20 10 4 J e. 6.43 10 5 J 34. Which response has the following substances arranged in order of increasing boiling point? Ar, NaClO 3, H 2O, H 2Se a. NaClO 3 < H 2O < H 2Se < Ar b. NaClO 3 < H 2Se < H 2O < Ar c. Ar < NaClO 3 < H 2Se < H 2O d. Ar < H 2O < H 2Se < NaClO 3 e. Ar < H 2Se < H 2O < NaClO 3 35. In a body-centered cubic lattice, how many atoms are contained in a unit cell? a. one b. two c. three d. four e. five 36. Which one of the following is an ionic solid? a. graphite b. nickel c. ammonium chloride d. silicon carbide, SiC e. sucrose, C 12H 22O 11 37. Which one of the following is a molecular solid? a. NH 4Cl b. K c. SiC d. C 6H 6 e. KC 2H 3O 2 38. Which one of the following substances is incorrectly matched with the kind of solid it forms? Substance / Kind of Solid a. sulfur dioxide / molecular b. graphite / covalent c. calcium bromide / ionic d. potassium / ionic e. methane / molecular 39. Metallic calcium crystallized in a face-centered cubic lattice, and the edge of the cube is 15.57Å. Calculate the density of calcium. a. 1.28 g/cm 3 b. 1.42 g/cm 3 c. 1.54 g/cm 3
d. 1.84 g/cm 3 e. 2.11 g/cm 3 40. Which one of the following elements is considered a semiconductor? a. Li b. Fe c. Cl d. Ni e. Si 41. Elements that have their highest energy electrons in a filled valence band that is separated from the conductance band by an energy difference much too large for electrons to jump between bands are called. a. semiconductors b. metals c. conductors d. insulators e. isomorphs 42. Which of the following solutions would not be expected to exist? a. MgCl 2 in CCl 4 b. NaCl in water c. Pentane, C 5H 12, in CCl 4 d. methanol, CH 3OH, in water e. Vegetable oil in mineral oil 43. At 25 C, 100 g of water will be saturated with 35.7 g of NaCl. Which word below describes the solution of 1.55 mol of NaCl dissolved in 250 ml of water? a. saturated b. unsaturated c. supersaturated d. metasaturated e. none of these apply 44. Calculate the molality of a solution that contains 25 g of H 2SO 4 dissolved in 40. g of H 2O. a. 3.2 m b. 4.4 m c. 6.4 m d. 13 m e. 14 m 45. What mass of water must be used to dissolve 20.0 grams of ethanol, C 2H 5OH, to prepare a 0.0500 molal solution of ethanol? a. 3.76 kg b. 4.00 kg c. 8.70 kg d. 6.35 kg e. 7.18 kg 46. What is the mole fraction of ethanol, CH 3CH 2OH, in an aqueous solution that is 20.0% ethanol by mass? a. 0.150 b. 0.144 c. 0.0980
d. 0.0892 e. 0.208 47. Which of the following is not a colligative property? a. osmotic pressure b. vapor pressure raising c. boiling point elevation d. freezing point depression e. All of these are colligative properties 48. Which aqueous solution would have the lowest vapor pressure at 25 C? a. 1 M NaCl b. 1 M K 3PO 4 c. 1 M sucrose, C 12H 10O 11 d. 1 M MgCl 2 e. 1 M glucose, C 6H 12O 6 49. At 40 C, the vapor pressure of heptane is 92 torr. If a solution is made of naphthalene in heptane and has a vapor pressure of 82 torr, what is the mole fraction of naphthalene? Assume ideal solution behavior. a. 0.891 b. 0.435 c. 0.487 d. 0.109 e. 1.109 50. Which of these aqueous solutions would be expected to have the highest boiling point? a. 0.100 m KCl b. 0.100 m NaOH c. 0.075 m K 2SO 4 d. 0.050 m Al 2(SO 4) 3 e. 0.200 m CH 3OH 51. The boiling point of pure water in Winter Park, CO ( elev. 9000 ft), is 94 C. What is the boiling point of a solution containing 11.3 g of glucose (180 g/mol) in 55 ml of water in Winter Park? K b for water = 0.512 C/m. a. 94.6 C b. 95.1 C c. 98.6 C d. 100 C e. 93.4 C 52. Calculate the freezing point of a solution that contains 68.4 g of sucrose (table sugar) in 300. g of water. One mole of sucrose is 342 g. K f for H 2O = 1.86 C/m. a. 0.186 C b. 0.372 C c. 0.558 C d. 0.744 C e. 1.24 C 53. Estimate the molecular weight of a biological macromolecule if a 0.100-gram sample dissolved in 50.0 ml of benzene has an osmotic pressure of 9.76 torr at 25.0 C. a. 3.8 10 3 g/mol
b. 4.2 10 4 g/mol c. 5.6 10 4 g/mol d. 6.7 10 4 g/mol e. 8.3 10 3 g/mol 54. What is the molality of a solution prepared by dissolving 10.0 grams of methylamine, CH 3NH 2, in 50.0 ml of ethanol, C 2H 5OH? The specific gravity of ethanol is 0.789. a. 6.30 m b. 8.18 m c. 4.26 m d. 5.16 m e. 3.87 m 55. A solution contains 10.0 g pentane, C 5H 12, 10.0 g hexane, C 6H 14 and 10.0 g benzene, C 6H 6. What is the mole fraction of hexane? a. 0.303 b. 0.116 c. 0.333 d. 0.362 e. 0.335 56. Calculate the mole fraction of ethanol, C 2H 5OH, in a solution that contains 230. grams of C 2H 5OH and 312 grams of benzene, C 6H 6. a. 0.44 b. 0.56 c. 0.57 d. 1.8 e. 2.3 57. Physical properties that depend on the but not the of solute particles in a given amount of solvent are called colligative properties. a. number; kind b. polarity; number c. number; polarity d. kind; number e. polarity; concentration 58. What is the vapor pressure of a aqueous solution containing 10 %(by weight) ethylene glycol (62 g/mol) at 25 C. P H2O = 24.3 torr at 25 C. a. 25.1 torr b. 21.9 torr c. 23.5 torr d. 18.9 torr e. 0.761 torr 59. Calculate the freezing point of a solution that contains 8.0 g of sucrose (C 12H 22O 11) in 100. g of H 2O. K f for H 2O = 1.86 C/m. a. 0.044 C b. 0.22 C c. 0.39 C d. 0.44 C e. 0.04 C
60. When 1.150 grams of an unknown nonelectrolyte dissolves in 10.0 grams of water, the solution freezes at 2.16 C. What is the molecular weight of the unknown compound? K f for water = 1.86 C/m. a. 88.6 g/mol b. 116 g/mol c. 74.2 g/mol d. 99.1 g/mol e. 132 g/mol
Chem 1100 Pre-Test 3 Answer Section MULTIPLE CHOICE 1. ANS: D PTS: 1 TOP: Oxidation Numbers 2. ANS: C PTS: 1 TOP: Oxidation Numbers 3. ANS: C PTS: 1 TOP: Oxidation Numbers 4. ANS: B PTS: 1 TOP: Oxidation-Reduction Reactions 5. ANS: B PTS: 1 TOP: Oxidation-Reduction Reactions 6. ANS: B PTS: 1 DIF: Harder Question TOP: Oxidation-Reduction Reactions 7. ANS: B PTS: 1 TOP: Oxidation-Reduction Reactions 8. ANS: C PTS: 1 TOP: Pressure 9. ANS: D PTS: 1 TOP: Boyle's Law: The Volume-Pressure Relationship 10. ANS: E PTS: 1 TOP: Charles's Law: The Volume-Temperature Relationship; The Absolute Temperature Scale 11. ANS: C PTS: 1 TOP: The Combined Gas Law Equation 12. ANS: B PTS: 1 TOP: Avogadro's Law and the Standard Molar Volume 13. ANS: E PTS: 1 TOP: Avogadro's Law and the Standard Molar Volume 14. ANS: C PTS: 1 TOP: Summary of Gas Laws: The Ideal Gas Equation 15. ANS: B PTS: 1 TOP: Summary of Gas Laws: The Ideal Gas Equation 16. ANS: C PTS: 1 TOP: Dalton's Law of Partial Pressures 17. ANS: B PTS: 1 TOP: Dalton's Law of Partial Pressures 18. ANS: B PTS: 1 TOP: Dalton's Law of Partial Pressures 19. ANS: B PTS: 1 TOP: Dalton's Law of Partial Pressures 20. ANS: B PTS: 1 TOP: Mass-Volume Relationships in Reactions Involving Gases 21. ANS: E PTS: 1 DIF: Harder Question TOP: Mass-Volume Relationships in Reactions Involving Gases 22. ANS: E PTS: 1 TOP: Diffusion and Effusion of Gases 23. ANS: E PTS: 1 TOP: Deviations from Ideal Gas Behavior 24. ANS: A PTS: 1 TOP: The Kinetic-Molecular Theory 25. ANS: E PTS: 1 TOP: Deviations from Ideal Gas Behavior 26. ANS: C PTS: 1 DIF: Harder Question TOP: Deviations from Ideal Gas Behavior 27. ANS: B PTS: 1 TOP: Intermolecular Attractions and Phase Changes 28. ANS: D PTS: 1 TOP: Intermolecular Attractions and Phase Changes 29. ANS: C PTS: 1 TOP: Viscosity 30. ANS: B PTS: 1 TOP: Surface Tension 31. ANS: E PTS: 1 TOP: Boiling Points and Distillation 32. ANS: A PTS: 1 TOP: Heat Transfer Involving Liquids 33. ANS: C PTS: 1 TOP: Heat Transfer Involving Liquids 34. ANS: E PTS: 1 TOP: Heat Transfer Involving Liquids 35. ANS: B PTS: 1 TOP: Structures of Crystals 36. ANS: C PTS: 1 TOP: Bonding in Solids 37. ANS: D PTS: 1 TOP: Bonding in Solids
38. ANS: D PTS: 1 TOP: Bonding in Solids 39. ANS: C PTS: 1 DIF: Harder Question TOP: Bonding in Solids 40. ANS: E PTS: 1 TOP: Band Theory of Metals 41. ANS: D PTS: 1 TOP: Band Theory of Metals 42. ANS: A PTS: 1 TOP: Dissolution of Liquids in Liquids (Miscibility) 43. ANS: C PTS: 1 TOP: Rates of Dissolution and Saturation 44. ANS: C PTS: 1 TOP: Molality and Mole Fraction 45. ANS: C PTS: 1 TOP: Molality and Mole Fraction 46. ANS: D PTS: 1 TOP: Molality and Mole Fraction 47. ANS: B PTS: 1 TOP: Colligative Properties of Solutions 48. ANS: B PTS: 1 TOP: Lowering of Vapor Pressure and Raoult's Law 49. ANS: D PTS: 1 TOP: Lowering of Vapor Pressure and Raoult's Law 50. ANS: C PTS: 1 TOP: Boiling Point Elevation 51. ANS: A PTS: 1 TOP: Boiling Point Elevation 52. ANS: E PTS: 1 TOP: Freezing Point Depression 53. ANS: A PTS: 1 TOP: Osmotic Pressure 54. ANS: B PTS: 1 TOP: Molality and Mole Fraction 55. ANS: A PTS: 1 TOP: Molality and Mole Fraction 56. ANS: B PTS: 1 TOP: Molality and Mole Fraction 57. ANS: A PTS: 1 TOP: Colligative Properties of Solutions 58. ANS: C PTS: 1 TOP: Lowering of Vapor Pressure and Raoult's Law 59. ANS: D PTS: 1 TOP: Freezing Point Depression 60. ANS: D PTS: 1 TOP: Determination of Molecular Weight by Freezing Point Depression or Boiling Point Elevation