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19 Nov 2019
6. Calculate the value of the K, for the unknown acid HA from the data at the point at which 5.85 mL of NaOH have been added to the acid. Read the pH from your graph. This should be clearly marked on your graph in the same manner as used to mark the pH in 5 above. USE BASE MOLARITY FROM #2. Total volume of solution: 5.85 l pH:-3.6 For each calculation below, show your work. A e (Calculate [A] produced by the titration reaction. What is [A] from the acid dissociation reaction? Sum these two [A] values for the [A le [HAJeg Ka
6. Calculate the value of the K, for the unknown acid HA from the data at the point at which 5.85 mL of NaOH have been added to the acid. Read the pH from your graph. This should be clearly marked on your graph in the same manner as used to mark the pH in 5 above. USE BASE MOLARITY FROM #2. Total volume of solution: 5.85 l pH:-3.6 For each calculation below, show your work. A e (Calculate [A] produced by the titration reaction. What is [A] from the acid dissociation reaction? Sum these two [A] values for the [A le [HAJeg Ka