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Practice Exam Unit D 2014 Chemistry AP Number: Period:____ 1. The volume of fluorine gas required to react with 2.67 g of calcium bromide to form calcium fluoride and bromine at 41.0 °C and 4.31 atm is __________ mL. A) 10.4 B) 210 C) 420 D) 79.9 E) 104 2. Which one of the following exhibits dipole-dipole attraction between molecules? A) XeF4 B) AsH 3 C) CO2 D) BCl3 E) Cl2 3. Use the code provided to classify each of the following substances by the type of crystalline solid: Atomic = A, Covalent Network = CN, Ionic = I, Metallic = M, Molecular polar = MP, Molecular nonpolar = MN a. Manganese ___ b. C (s, graphite) ___ f. Argon ___ c . CaCO3 ___ d. Fluorine gas___ e. SF4 ___ 4. If a barometer were built using water instead of Hg, how high would the column of water be if the pressure were 1 atm, knowing the density of water is 13.6 times lower than that of mercury? A) 10.3 m B) 3.17 m C) 20.0 m D) 33.0 m 5. Tin(II) reacts with excess hydrochloric acid in a single replacement reaction. How many liters of hydrogen gas are produced at 27oC and a pressure of 710 torr, if 2.80 grams of tin reacts? a. 0.620 b. 0.320 c. 2.00 d. 1.25 6. 5.00 cm3 of each oxygen gas and carbon monoxide at STP are mixed and allowed to react. The volume of the container is 20.0 cm3. Calculate PT, in atm, at the end knowing that the product of the reaction is CO2 a. 0.25 b. 0.250 c. 0.063 d. 0.375 7. 1.0 L of hydrogen gas is collected over water at 308 K, at a pressure of 728 torr. How many grams of iron(II) are required to react with excess HCl(aq) to produce this volume of hydrogen gas? The vapor pressure of water is 42.2 torr. a. 4.7 g b. 2.35 g c. 2.0 g d. 1.3 g 8. Gas A diffuses twice as fast as gas B. Gas B has a molecular weight = 60.0 g/mol. What is the molar mass of gas A? a. 15.0 b. 120 c. 30 d. 90 9. Using the van der Waals equation, calculate the pressure exerted by 10.g of methane(CH4) in a 2.1 L container at 330K. a = 2.253 L2atm/mol2, b= 0.0458 L/mol. Calculate using the ideal gas equation and find the difference between the ideal gas pressure and van der Waals pressure a. 2.0 b. 0.5 c. 0.1 d. 1.5 Free Response: 1. Each of the following schematic diagrams illustrates a different type of substance: Ionic, Non-Polar Molecular Covalent, Polar Molecular Covalent, Network Covalent, and Metallic. For each of the diagrams, a. State the type of substance represented from the above list. b. Give an example of a substance of that type. c. Give a property or set of properties that uniquely characterizes the substance type. + - + + + -+ + + - + -- + + - -+ - + +-- -+ + + -+ - + ++ +-+ + + - -+ + + + + + + ++ -+ + -+ Type: Example: Properties: Type: Example: Properties: Type: Example: Properties: + - + - + - + + + + + + + + + + + + + - + - + - Type: Properties: Example: + - + - + - - + - + - + + - + - + - - + - + - + + - + - + - - + - + - + Type: Example: Properties: 2. Observations about real gases can be explained at the molecular level according to the kinetic molecular theory of gases and ideas about intermolecular forces. Explain how each of the following observations can be interpreted according to these concepts, including how the observation supports the correctness of these theories. (a) When a gas-filled balloon is cooled, it shrinks in volume; this occurs no matter what gas is originally placed in the balloon. (b) When the balloon described in (a) is cooled further, the volume does not become zero; rather, the gas becomes a liquid or solid. (c) When NH3 gas is introduced at one end of a long tube while HCl gas is introduced simultaneously at the other end, a ring of white ammonium chloride is observed to form in the tube after a few minutes. This ring is closer to the HCl end of the tube than the NH3 end. (d) A flag waves in the wind. 3. A student is assigned the task of determining the mass percent of silver in an alloy of copper and silver by dissolving a sample of the alloy in excess nitric acid and then precipitating the silver as AgCl. First the student prepares 50. mL of 6 M HNO3 . The student is provided with a stock solution of 16 M HNO3 , two 100 mL graduated cylinders that can be read to ±1 mL, a 100 mL beaker that can be read to ±10 mL, safety goggles, rubber gloves, a glass stirring rod, a dropper, and distilled H2O. (a) Calculate the volume, in mL, of 16 M HNO3 that the student should use for preparing 50. mL of 6 M HNO3 . (b) Briefly list the steps of an appropriate and safe procedure for preparing the 50. mL of 6 M HNO3. Only materials selected from those provided to the student (listed above) may be used. (c) Explain why it is not necessary to use a volumetric flask (calibrated to 50.00 mL ±0.05 mL) to perform the dilution. (d)During the preparation of the solution, the student accidentally spills about 1 mL of 16 HNO3 on the bench top. The student finds three bottles containing liquids sitting near the spill: a bottle of distilled water, a bottle of 5 percent NaHCO3 (aq), and a bottle of saturated NaCl(aq). Which of the liquids is best to use in cleaning up the spill? Justify your choice. Then the student pours 25 mL of the 6 M HNO3 into a beaker and adds a 0.6489 g sample of the alloy. After the sample completely reacts with the acid, some saturated NaCl(aq) is added to the beaker, resulting in the formation of an AgCl precipitate. Additional NaCl(aq) is added until no more precipitate is observed to form. The precipitate is filtered, washed, dried, and weighed to constant mass in a filter crucible. The data are shown below. Mass of sample of copper-silver alloy 0.6489 g Mass of dry filter crucible 28.7210 g Mass of filter crucible and precipitate(first weighing) 29.3587 g Mass of filter crucible and precipitate (second weighing) 29.2599 g Mass of filter crucible and precipitate (third weighing) 29.2598 g (e)Calculate the number of moles of AgCl precipitate collected. (f)Calculate the mass percent of silver in the alloy of copper and silver. 4. (a)Place the following gases in order of decreasing average molecular speed at 25ºC: ______ > ______ > ______ > ______ > ______ b. A balloon filled with unknown compound X takes twice as much time to deflate as does the balloon containing CH4. What is the average molecular speed of compound X under these conditions? c. The constant a for N2 has a value of 0.39 L2-atm/mol2 in the van der Waals equation. Explain to what the constant refers and predict how the value of the constant a for CO2 would compare.