Practice Midterm 1 CHEMISTRY 120 GENERAL CHEMISTRY. Examiners: Prof. B. Siwick Prof. A. Mittermaier Prof. A. Fenster
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1 Practice Midterm 1 CHEMISTRY 120 GENERAL CHEMISTRY Examiners: Prof. B. Siwick Prof. A. Mittermaier Prof. A. Fenster Name: INSTRUCTIONS (for the actual Midterm) 1. Enter your student number and name on the computer scorecard provided, by filling in the appropriate circles. Check that your scorecard has the correct version number filled in (version 1). If not, fill that in. 2. This examination comprises 30 questions (14 pages including cover page and 4 blank pages). All questions are of equal value. 3. Transfer answers to the scantron computer scorecard provided. 4. Both the scorecard and the examination paper will be collected separately at the end of the examination period. 5. Simple Calculators are allowed, and translation dictionaries. NO notes or texts are allowed. 6. The Examination Security Monitor Program detects pairs of students with unusually similar answer patterns on multiple-choice exams. Data generated by this program can be used as admissible evidence, either to initiate or corroborate an investigation or a charge of cheating under Section 16 of the Code of Student Conduct and Disciplinary Procedures. NOTE TO INVIGILATORS: At the end of the exam, both scorecards and exam papers should be collected. Collect scorecards separately.
2 THESE DATA WILL BE PROVIDED ON THE MIDTERM EXAMINATION STP: 0 C and 1 atm 1 mol gas at STP: 22.4 L k = 1.38 x J/K 0 K = C e = Pa = 1 N/m 2 g = 9.81 m/s 2 1 atm = kpa = 760 Torr π = bar = 100,000 Pa = 100 kpa R = J/(mol K) 1 J = 1 kg m 2 /s 2 = 1 kpa L = L atm /(mol K) 1 mol = 6.02 x molecules PV = nrt PV 1 n T = P2 V n T d = MP RT m = MPV RT P = 1 3 N V mu 2 e k = 3 2 RT N A 3RT u rms = P = hdg M Integrated Rate Laws: Arrhenius Equation: Order 0: [A] = [A] 0 - k t Order 1: [A] = [A] 0 e - k t Order 2: 1/[A] = 1/[A] 0 + kt a / k = Ae E RT k2 E a 1 1 ln = k1 R T2 T1
3 Standard states for various elements under STP conditions: Hydrogen: H 2 (g) Carbon: C(s, graphite) Nitrogen: N 2 (g) Oxygen: O 2 (g) Copper: Cu(s) Sulphur: S(s)
4 1) Calculate the height in meters of a column of liquid glycerol (density =1.26 g/cm 3 ) required to exert the same pressure as 760 mmhg (d = g/cm 3 ). a) 8.20 m b) m c) m d) 44.4 m e) 70.4 m 2) A mercury manometer is used at a barometric pressure of kpa. If the mercury level at the open end of the manometer is 50 cm higher than the mercury level at the closed end, as shown, what is the pressure of the enclosed gas? a) 50 torr b) 500 torr c) 1255 torr d) torr e) 260 torr 3) Which statement regarding a sample of an ideal gas is false? a) If the pressure is doubled at constant temperature, the volume increases by a factor of two. b) If the temperature is doubled at constant pressure, the volume increases by a factor of two. c) If the temperature is doubled at constant volume, the pressure increases by a factor of two. d) If the volume is doubled at constant temperature, the pressure decreases by a factor of two. e) If the number of moles of gas is doubled at constant temperature and pressure, the volume increases by a factor of two. 4) What volume would be occupied by 4.8 g of oxygen gas (O 2 ) at 0.50 atm and 133 C? a) 10 L b) 3.3 L c) 13 L d) 19 L e) 6.7 L 5) A ml sample of O 2 (g) is at 780 mmhg and 30 C. What will be the new volume if, with constant pressure and amount of gas, the temperature is decreased to -15 C? a) 426 ml b) 587 ml c) 500 ml d) 250 ml e) 437 ml
5 6) A 4.00 L sample of N 2 (g) at 760 mmhg is compressed, at constant temperature, to 3.20 atm. What is the final gas volume? a) 950 L b) L c) 1.25 L d) 13.1 L e) 59.6 L 7) A sample of helium gas occupies a volume of 38 L at 780 torr and 25 C. What volume would the gas occupy at standard temperature and pressure? a) 25 L b) 38 L c) 34 L d) 40 L e) 36 L 8) A 5.00 L container of unknown gas at 25.0 C has a pressure of 2.45 atm. The mass of the gas is 32.1 g. What gas is in the container? a) NO 2 b) Cl 2 c) SO 2 d) F 2 e) SO 3 9) Diethyl ether (CH 3 CH 2 OCH 2 CH 3 ) was the first general anesthetic. It was first used in 1846 for surgical procedures. What is the density in g/l of diethyl ether at 27 C and 1.11 atm? a) g/l b) 3.34 g/l c) g/l d) 37.1 g/l e) 2.71 g/l 10) Consider the following reaction: N 2 (g) + 3 H 2 (g) 2 NH 3 (g) What volume of NH 3 (g) can be produced from L of H 2 (g) if the gases are measured at 350 C and 400 atm pressure? a) L b) L c) 66.7 L d) L e) L
6 11) How many liters of H 2 are needed to make 327 L of NH 3 by the reaction: N 2 (g) + 3 H 2 (g) 2NH 3 (g), if the gases are at the same temperature and pressure? a) 491 L b) 654 L c) 218 L d) 38.5 L e) 327 L 12) The heat of combustion of several fuels are listed in the table below. On a per gram basis, which fuel releases the most energy? Fuel ΔH comb (kj/mole) C(s) CH 4 (g) CH 3 OH(l) C 3 H 8 (g) H 2 (g) a) C(s) b) C 3 H 8 (g) c) CH 4 (g) d) H 2 (g) e) CH 3 OH(l) 13) g of hot coffee at 95.0 C are placed in a kg mug at 20.0 C. The specific heat of the coffee is 4.00 J/g C, while that of the mug is 0.80 J/g C. Assuming no heat is lost to the surroundings, what is the final temperature of the system: mug + coffee? a) 84.7 C b) 61.7 C c) 76.0 C d) 57.5 C e) 117 C 14) Some beetles defend themselves by spraying hot quinone, C 6 H 4 O 2 (l), at their enemies. Calculate ΔH for the reaction: C 6 H 4 (OH) 2 (l) + H 2 O 2 (l) C 6 H 4 O 2 (l) + 2H 2 O(l) Given: C 6 H 4 (OH) 2 (l) C 6 H 4 O 2 (l) + H 2 (g) ΔH = kj, and the standard enthalpies of formation of H 2 O 2 (l) and H 2 O(l) are and kj/mol, respectively. a) kj b) kj c) kj d) kj e) kj
7 15) Enthalpy is defined as: a) the energy contained within a system b) the heat of combustion c) the work not limited to pressure volume work d) the sum of the kinetic and potential energies e) the sum of the internal energy and the pressure-volume product of a system. 16) The standard enthalpy of formation for CuSO 4 5H 2 O(s) is kj/mole at 25 C. The chemical equation to which this value applies is: a) Cu(s) + S(s) + 5 H 2 O(g) + 2 O 2 (g) CuSO 4 5H 2 O(s) b) Cu(s) + SO 4 (g) + 5 H 2 O(g) CuSO 4 5H 2 O(s) c) Cu(s) + S(s) + 9/2 O 2 (g) + 5 H 2 (g) CuSO 4 5H 2 O(s) d) 2Cu(s) + 2 SO 2 (g) + 5 H 2 O(g) 2CuSO 4 5H 2 O(s) e) Cu(s) + S(s) + 5/9 O 2 (g) + 5 H 2 (g) CuSO 4 5H 2 O(s) 17) Choose the INCORRECT statement. a) The heat capacity is the quantity of heat required to change the temperature of the system by one degree. b) The temperature of two gases is equal when the average kinetic energy per molecule is the same in each. c) Specific heat capacity is an extensive quantity. d) The law of conservation of energy can be written: qsystem + qsurroundings = 0. e) In general, the specific heat capacity of a substance in solid form is lower than that of the liquid form. 18) Calculate ΔH f of octane, C 8 H 18 (l), given the enthalpy of combustion of octane to CO 2 (g) and H 2 O(l), kj/mol, and the standard enthalpies of formation of CO 2 (g) and H 2 O(l), kj/mol and kj/mol, respectively. a) kj/mol b) kj/mol c) kj/mol d) kj/mol e) kj/mol 19) For the reaction H 2 (g) + 1/2 O 2 (g) H 2 O(g) ΔH = kj/mol, what quantity of heat, in kj, evolved when a 72.0 g mixture containing equal parts of H 2 and O 2 (by mass) is burned? a) 1088 kj b) 544 kj c) 272 kj d) 8630 kj e) 4860 kj 20) Which of the following is NOT a thermodynamic function of state: a) temperature b) enthalpy c) density d) heat e) volume
8 21) For the reaction: 2N2O5(g) 4NO2(g) + O2(g) at the time when N2O5 is being consumed at a rate of M/s, what is the rate at which O2 is being formed? a) M/s b) M/s c) M/s d) M/s e) M/s 22) Define "rate law". a) An equation derived using collision theory that describes how the rate of reaction depends on the concentration of reactants. b) A statement that describes how the rate of a reaction depends on the concentration of reactants derived from the balanced equation. c) An equation derived using collision theory that describes how the rate of reaction depends on temperature, orientation and number of collisions d) An experimentally determined equation that describes how the rate of reaction depends on temperature, orientation and number of collisions. e) An experimentally determined equation that describes how the rate of reaction depends on the concentration of reactants. 23) Data for the reaction A + B C are given below. Find the rate constant for this system. (1) Experiment [A], M [B], M Initial rate, M/s (a) (b) (c) a) Ms-1 b) M2s-1 c) M-1s-1 d) M-1s-1 e) Ms-1 23) In the first order, reaction A products, [A] = M initially and M after 15.0 min, what will [A] be after 175 min? a) M b) M c) M d) M e) M
9 24) Activation energy is: i) The minimum kinetic energy that each of the molecules involved in a collision must posses to produce a reaction ii) The minimum total kinetic energy required for the molecules in a collision to produce a reaction. iii) A factor in determining the rate of a reaction. iv) High for fast reactions. a) i), iii) and iv) b) i) and iii) c) ii) and iii) d) ii), iii) and iv) e) ii) and iv) 25) For the reaction: 2N2O5(g) 4NO2(g) + O2(g) the rate law is: Δ [ O2 ] = k[n2o5] Δt At 300 K, the half-life is seconds and the activation energy is kj/mol O2. What is the rate constant at 310 K? a) s-1 b) s-1 c) s-1 d) s-1 e) s-1 26) For the reaction C2H4Br2 + 3KI C2H4 + 2KBr + KI3, initial rate data at 60 C are [C2H4Br2], M [KI], M Δ[KI3]/Δt (M/min) The rate law is: a) rate = k[ki][c2h4br2] b) rate = k[ki][c2h4br2]2 c) rate = k[ki] d) rate = k[ki]2 e) rate = k[c2h4br2] 27) For a second order reaction, what are the correct dimensions for the rate constant? a) 1 b) M-1 time c) M time-2 d) M-1 time-1 e) M time-1
10 28) The first-order reaction A Products has a half-life, t1/2, of 55.0 min at 25 C and 6.8 min at 100 C. What is the activation energy for this reaction? a) kj/mol b) kj/mol c) 25.8 kj/mol d) 38.8 kj/mol e) 347 kj/mol 29) Why is rate = k[hgcl2] 2[C2O4 2- ] not the rate law for the following reaction if the reaction proceeds by the mechanism given? 2HgCl2 + C2O4 2-2Cl- + 2CO2 + Hg2Cl2 (overall reaction) Mechanism: HgCl2 + C2O4 2- HgCl2C2O4 2- (Fast) HgCl2C2O C2O4 2- Hg + 2C2O4Cl2- (Slow) Hg + HgCl2 Hg2Cl2 (Fast) 2C2O4Cl2- C2O Cl- + 2CO2 (Fast) a) The steps do not add to the overall reaction b) The first step is not the slow step. c) The rate law does not agree with the overall reaction. d) The exponents of HgCl2 and C2O4 2- are not equal. e) The rate law calculated from the slow step is not the rate law: rate = k[hgcl2]2[c2o4 2- ]. 30) Given the following: P4(s) + 6 Cl2(g) 4 PCl3(g) ΔH = kj PCl3(g) + 3 H2O(l) H3PO3(aq) + 3 HCl(aq) = kj 2 H2(g) + O2(g) 2 H2O(l) = kj H2(g) + Cl2(g) 2 HCl(g) = kj What is the value of ΔH for P4(s) + 6 H2(g) + 6 O2(g) 4 H3PO3(aq)? a) kj b) kj c) kj d) kj e) kj
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