2011 AP CHEMISTRY FREE-RESPONSE QUESTIONS (Form B)

Transcription

1 2011 AP CHEMISTRY FREE-RESPONSE QUESTIONS (Form B) 5. A student is instructed to prepare ml of M NaOH from a stock solution of M NaOH. The student follows the proper safety guidelines. (a) Calculate the volume of M NaOH needed to accurately prepare ml of M NaOH solution. (b) Describe the steps in a procedure to prepare ml of M NaOH solution using M NaOH and equipment selected from the list below. Balance 25 ml Erlenmeyer flask 100 ml graduated cylinder 100 ml volumetric flask 50 ml buret 100 ml Florence flask 25 ml pipet 100 ml beaker Eyedropper Drying oven Wash bottle of distilled H2O Crucible (c) The student is given 50.0 ml of a 1.00 M solution of a weak, monoprotic acid, HA. The solution is titrated with the M NaOH to the endpoint. (Assume that the endpoint is at the equivalence point.) (i) Explain why the solution is basic at the equivalence point of the titration. Include a chemical equation as part of your explanation. (ii) Identify the indicator in the table below that would be best for the titration. Justify your choice. Indicator pka Methyl red 5 Bromothymol blue 7 Phenolphthalein 9 (d) The student is given another 50.0 ml sample of 1.00 M HA, which the student adds to the solution that had been titrated to the endpoint in part (c). The result is a solution with a ph of 5.0. (i) What is the value of the acid-dissociation constant, Ka, for the weak acid? Explain your reasoning. (ii) Explain why the addition of a few drops of M NaOH to the resulting solution does not appreciably change its ph.

2 A solution of M HCl and a solution of M NaOH are prepared. A 40.0 ml sample of one of the solutions is added to a beaker and then titrated with the other solution. A ph electrode is used to obtain the data that are plotted in the titration curve shown above. (a) Identify the solution that was initially added to the beaker. Explain your reasoning. (b) On the titration curve above, circle the point that corresponds to the equivalence point. (c) At the equivalence point, how many moles of titrant have been added? (d) The same titration is to be performed again, this time using an indicator. Use the information in the table below to select the best indicator for the titration. Explain your choice. Indicator ph Range of Color Change Methyl violet Methyl red 4 6 Alizarin yellow (e) What is the difference between the equivalence point of a titration and the end point of a titration? (f) On the grid provided on the next page, sketch the titration curve that would result if the solutions in the beaker and buret were reversed (i.e., if 40.0 ml of the solution used in the buret in the previous titration were titrated with the solution that was in the beaker).

3 1. Answer the following questions that relate to the chemistry of halogen oxoacids. (a) Use the information in the table below to answer part (a)(i). ACID 298K HOCl 2.9x10-8 HOBr 2.4x10-9 (i) Which of the two acids is stronger, HOCl or HOBr? Justify your answer in terms of Ka. (ii) Draw a complete Lewis electron-dot diagram for the acid that you identified in part (a)(i). (iii) Hypoiodous acid has the formula HOI. Predict whether HOI is a stronger acid or a weaker acid than the acid that you identified in part (a)(i). Justify your prediction in terms of chemical bonding. (b) Write the equation for the reaction that occurs between hypochlorous acid and water. (c) A 1.2 M NaOCl solution is prepared by dissolving solid NaOCl in distilled water at 298 K. The following hydrolysis reaction occurs. OCl - (aq) + H2O(l) HOCl(aq) + OH - (aq) (i) Write the equilibrium-constant expression for the hydrolysis reaction that occurs between OCl-(aq) and H2O(l). (ii) Calculate the value of the equilibrium constant at 298 K for the hydrolysis reaction. (iii) Calculate the value of [OH-] in the 1.2 M NaOCl solution at 298 K.

4 1. A pure g sample of the weak base ethylamine, C2H5NH2, is dissolved in enough distilled water to make 500. ml of solution. (a) Calculate the molar concentration of the C2H5NH2 in the solution. The aqueous ethylamine reacts with water according to the equation below. C2H5NH2(aq) + H2O(l) C2H5NH3+(aq) + OH-(aq) (b) Write the equilibrium-constant expression for the reaction between C2H5NH2(aq) and water. (c) Of C2H5NH2(aq) and C2H5NH3+(aq), which is present in the solution at the higher concentration at equilibrium? Justify your answer. (d) A different solution is made by mixing 500. ml of M C2H5NH2 with 500. ml of M HCl. Assume that volumes are additive. The ph of the resulting solution is found to be (i) Calculate the concentration of OH-(aq) in the solution. (ii) Write the net-ionic equation that represents the reaction that occurs when the C2H5NH2 solution is mixed with the HCl solution. (iii) Calculate the molar concentration of the C2H5NH3 (iv) Calculate the value of Kb for C2H5NH2.

5 1. Each of three beakers contains 25.0 ml of a M solution of HCl, NH3, or NH4Cl, as shown above. Each solution is at 25 C. (a) Determine the ph of the solution in beaker 1. Justify your answer. (b) In beaker 2, the reaction NH3(aq) + H2O(l) NH4 +(aq) + OH (aq) occurs. The value of Kb for NH3(aq) is at 25 C. (i) Write the Kb expression for the reaction of NH3(aq) with H2O(l). (ii) Calculate the [OH-] in the solution in beaker 2. (c) In beaker 3, the reaction NH4 +(aq) + H2O(l) NH3(aq) + H3O+(aq) occurs. (i) Calculate the value of Ka for NH4 +(aq) at 25 C. (ii) The contents of beaker 2 are poured into beaker 3 and the resulting solution is stirred. Assume that volumes are additive. Calculate the ph of the resulting solution. (d) The contents of beaker 1 are poured into the solution made in part (c)(ii). The resulting solution is stirred. Assume that volumes are additive. (i) Is the resulting solution an effective buffer? Justify your answer. (ii) Calculate the final [NH4+] in the resulting solution at 25 C.

6 2007 part A, question #1 HF(aq) + H 2 O(l) H 3 O + (aq) + F (aq) K a = Hydrofluoric acid, HF(aq), dissociates in water as represented by the equation above. (a) Write the equilibrium-constant expression for the dissociation of HF(aq) in water. (b) Calculate the molar concentration of H 3 O + in a 0.40 M HF(aq) solution. HF(aq) reacts with NaOH(aq) according to the reaction represented below. HF(aq) + OH (aq) H 2 O(l) + F (aq) A volume of 15 ml of 0.40 M NaOH(aq) is added to 25 ml of 0.40 M HF(aq) solution. Assume that volumes are additive. (c) Calculate the number of moles of HF(aq) remaining in the solution. (d) Calculate the molar concentration of F (aq) in the solution. (e) Calculate the ph of the solution A Required HC 3 H 5 O 2 (aq) C 3 H 5 O 2 (aq) + H + (aq) K a = Propanoic acid, HC 3 H 5 O 2, ionizes in water according to the equation above. (a) Write the equilibrium constant expression for the reaction. (b) Calculate the ph of a M solution of propanoic acid. (c) A g sample of sodium propanoate, NaC 3 H 5 O 2, is added to a 50.0 ml sample of a M solution of propanoic acid. Assuming that no change in the volume of the solution occurs, calculate each of the following. (i) The concentration of the propanoate ion, C 3 H 5 O 2 (aq) in the solution (ii) The concentration of the H + (aq) ion in the solution. The methanoate ion, HCO 2 (aq) reacts with water to form methanoic acid and hydroxide ion, as shown in the following equation. HCO 2 (aq) + H 2 O (l) HCO 2 (aq) + OH (aq) (d) Given that [OH ] is M in a M solution of sodium methanoate, calculate each of the following. (i) The value of K b for the methanoate ion, HCO 2 (aq) (ii) The value of K a for methanoic acid, HCO 2 H (e) Which acid is stronger, propanoic acid or methanoic acid? Justify your answer.

7 2003 A Required C 6 H 5 NH 2 (aq) + H 2 O(l) C 6 H 5 NH 3 + (aq) + OH (aq) Aniline, a weak base, reacts with water according to the reaction represented above. (a) Write the equilibrium constant expression, K b, for the reaction represented above. (b) A sample of aniline is dissolved in water to produce 25.0 ml of 0.10 M solution. The ph of the solution is Calculate the equilibrium constant, K b, for this reaction. (c) The solution prepared in part (b) is titrated with 0.10 M HCl. Calculate the ph of the solution when 5.0 ml of the acid has been titrated. (d) Calculate the ph at the equivalence point of the titration in part (c). (e) The pk a values for several indicators are given below. Which of the indicators listed is most suitable for this titration? Justify your answer. Indicator pk a Erythrosine 3 Litmus 7 Thymolphthalein A Required HOBr(aq) H + (aq) + OBr (aq) K a = Hypobromous acid, HOBr, is a weak acid that dissociates in water, as represented by the equation above. (a) Calculate the value of [H + ] in an HOBr solution that has a ph of (b) Write the equilibrium constant expression for the ionization of HOBr in water, then calculate the concentration of HOBr(aq) in an HOBr solution that has [H + ] equal to M. (c) A solution of Ba(OH) 2 is titrated into a solution of HOBr. (i) Calculate the volume of M Ba(OH) 2 (aq) needed to reach the equivalence point when titrated into a 65.0 ml sample of M HOBr(aq). (ii) Indicate whether the ph at the equivalence point is less than 7, equal to 7, or greater than 7. Explain. (d) Calculate the number of moles of NaOBr(s) that would have to be added to 125 ml of M HOBr to produce a buffer solution with [H + ] = M. Assume that volume change is negligible. (e) HOBr is a weaker acid than HBrO 3. Account for this fact in terms of molecular structure B

8 Answer the following questions about acetylsalicylic acid, the active ingredient in aspirin. (a) The amount of acetylsalicylic acid in a single aspirin tablet is 325 mg, yet the tablet has a mass of 2.00 g. Calculate the mass percent of acetylsalicylic acid in the tablet. (b) The elements contained in acetylsalicylic acid are hydrogen, carbon, and oxygen. The combustion of g of the pure compound yields g of water and 3.72 L of dry carbon dioxide, measured at 750. mm Hg and 25 C. Calculate the mass, in g, of each element in the g sample. (c) A student dissolved g of pure acetylsalicylic acid in distilled water and titrated the resulting solution to the equivalence point using ml of M NaOH(aq). Assuming that acetylsalicylic acid has only one ionizable hydrogen, calculate the molar mass of the acid. (d) A mole sample of pure acetylsalicylic acid was dissolved in ml of water and then titrated with M NaOH(aq). The equivalence point was reached after ml of the NaOH solution had been added. Using the data from the titration, shown in the table below, determine (i) the value of the acid dissociation constant, K a, for acetylsalicylic acid and (ii) the ph of the solution after a total volume of ml of the NaOH solution had been added (assume that volumes are additive). Volume of 0.100M NaOH ph Added (ml) ?