Calculate the initial concentration of your acid. Recall that the original volume of the solution was 0.100 L [Acidlinitial

Data in first picture and questjons in second

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9. Calculate the initial concentration of your acid. Recall that the original volume of the solution was 0.100 L [Acid] initial Using your calculated value of K, and the initial concentration of the acid, calculate the initial pH of your acid, Set up the ICE table. You may need to use the quadratic formula. Initial pH from the titration: Calculated initial pH: Was the calculated initial pH higher or lower than initial pH from the curve ? Calculate the % error. 10. Look up the actual literature value of the pKa of your unknown in an appropriate source. (CRC handbook or the NIST webbook) Literature value of pka = (List both pka's if your acid is polyprotic) Source of the data : Was the actual value higher or lower than the pKa from your graph? Calculate the % error. Calculated pKa 1

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Data Sheet: Unknown acid #9 Mass of the Unknown acid: 2 0.209 PH 364 3.26 369 3:24 3:26 3.28 3.21 3:30 3:35 Name: Volume NaOH added 0.5ml Unknown acid (letter or number on the unknown bottle) #9 Concentration of NaOH(aq): 1. Aml 15mi 2.0ml 2.5ml 30ml 3.5mi toml 4.5ml 20ml 5.Smi 6.0m) 6.5ml 10ml 75ml 80ml 8.5ml 1 9.0ml 9.5ml 100ml 10 sml 11.0m 11.5ml 12.0ml 12.5 ml 13.0 ml B S ml 14.0 ml 14.5 ml 15.0 ml #9 23.51 3.54 3.58 3.64 3.72 3.39 3.70 3867 3.93 $4.00 14.06 4:13 47 4.20 4.28 FAT 4.36 4.43 4.46 4.64 4.83 5.05 2.93 9.91 Partner's Names: Titration of a weak Acid: Calculations and Post lab questions Volume NaOH added 15.5ml 16.0 ml 16.5 ml (70ml 175ml (letter or number on unknown bottle) 0.0995 M pH 10.63 10:03 11.25 11.37 Mass of Unknown acid: 0.0995 Concentration of NaOH(aq): Plot the titration curve as pH vs. mL of NaOH added using a computer graphing program. Make sure you have chosen the correct X and Y axes. Please include gridlines and print out a 8 ½ x 11 plot. You must attach the graph to the Lab Report. 02059 2. Locate the equivalence point(s) on the titration curve. It is very unlikely that the equivalence point(s) will be actual data points. You will need to either manually draw a smooth curve connecting your data points, or select the option in your graphing program that will draw the best-fit curve for you. Then find the steepest point(s) on the curve. This is/these are the equivalence point(s). Label the equivalence point(s) on the curve. (For polyprotic acids, label all the equivaence points.) 3. How many equivalence points does your graph show? 1 4. Recall that at the first equivalence point, moles of acid = moles of base added. Volume of NaOH added at the first equivalence point: 14.9ML 1.48x10 mol Moles of NaOH added at the first equivalence point: Volume of NaOH added at the Second equivalence point (if your unknown is polyprotic) only 1 equivalerile poin VON me of NaOH aF Ist equivalence = 14.9ml 5. Use the mass of the acid, the concentration of NaOH and the volume of NaOH added at the first equivalence point to calculate the molar mass of the acid: (Show your work clearly and include proper mass of Unknown -0.2099 Concentration of NaOH = 00995 M units.) mass of and = 0.2099 molar mass of and = 1.48x10m ² 141.21 g/mol Calculated Molar mass of the unknown acid=141.21 g/mol 6. Label the areas of the curve where a buffer is present. Locate the point where pH=pKa (halfway to the equivalence point.) Label pKa on the graph. If the acid is polyprotic, label the pKa for each equivalence point on the graph. Done!!! pka=4 5