Suppose a student used the standardized EDTA2- solution from #1 to determine the molarity of an unknown solution containing Ca2+ ions (this is similar to what you will be doing in Part 2 of the lab). After several titration trials were completed, the solution concentration was calculated to be 0.01044 M Ca2+. Convert this molarity to ppm CaCO3. Hint: See Sample Problem 2 on Page 7 of this handout

1. A student titrated to a dark pink endpoint when standardizing the NaOH. Will the student's caculated concentration of NaOH be higher, lower, or no different than the true value? Explain 2. What is the purpose of the phenoiphthalein in this experiment? 3. A student had an air bubble in the tip of the buret containing NaOH. The student used this buret to determine the molarity of acetic acid in vinegar During the titration, the air bubble released. Will the student's calculated acetic acid molarity be higher, lower, or no different from the correct value? Explain 4. A student added 75 mL instead of 40 mL of water to the acetic acid in the Erlenmeyer flask prior to titrating with NaOH. Will the student's calculated acetic acid molarity be higher, lower, or no different than the correct value? Explain, 5. A student cleaned a buret but forgot to rinse with NaOH. Consequently about 1 mL of water remained in the buret when the student filled it with NaOH. If this student uses the solution in this buret to determine the molarity of NaoH, will his value be higher, lower, or no different than the true value? Explain. 6. A student had her buret far above the flask when standardizing her NaOH solution. Because of this, several drops of NaOH splashed onto the lab bench instead of into the flask containing the HCI. Wil her calculated NaOH molarity be higher, lower, or no different than the true value? Explain. 108

nistry ion: Lab 7: Determination of an Unknown Concentration of Sultfuric Acid by Titration hemistry Pre-Lab Assignment A student measures out 20.00 mL of 0.09876 M HCl and adds it to an Erlenmeyer flask with a few drops of phenolphthalein. He then titrates it to the pink endpoint with 22.3 ml of NaoHin a second experiment, the student measures out 20.00 mL of H2SO4 solution, and again adds a few drops of phenolphthalein. In this titration, 10.8 mL of NaOH is needed. Use this information to answer the questions below n: HCI(aq) Naci(aq) H20(r) Part1:Reaction equation is: NaOH(aq) + + → ,000 nu. ㈧니 11.rs/HC- moles NaOH O. 00 19 75ml NaOw molarity of NaOH +/ 2 NaOH(aq)→ Nasuaq) + 2H2on Part 2: Reaction equation is:/ Haodaq) moles H2SO4 0, 02000 L A,s molarity of H2S04 Page 1 of 1 Page 1 of 2

Assume that the molarity of the NaOH solution used to titrate the saturated solution was actually higher than reported. Would the calculated KHT solubility be incorrectly high or low? Briefly explain. Assume that the filter paper had a small hole in it, allowing some solid KHT to get into the saturated solution filtrate. If some of the solid were included in the portion of solution titrated with NaOH solution, what effect would the solid have on the calculated KHT solubility? Briefly explain. An experiment was performed to determine the K_sp of Ca(OH)_2. A solution containing 2.00 times 10^-2 M Ca(NO_3)_2 was saturated with Ca(OH)_2 and filtered. Two samples of the saturated solution were titrated with 5.021 times 10^-2 M HCl, in order to determine the OH^- ion concentration in the saturated solution. In doing this problem, note that 1 mol of HCl reacts with 1 mol of OH^- ions. This relationship is the basis for the determination of the OH^- ton concentration: 1 mol Ca^2+ ions are produced for every 2 mols of OH^- ions produced. The data resulting from this experiment are shown in Table 2. Table 2 Student data used to determine the K_sp of Ca(OH)_2