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Titration of a diprotic Acid0

# Titration of a diprotic Acid0 - DETERMINATION OF AN UNKNOWN...

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DETERMINATION OF AN UNKNOWN BY pH TITRATION Discussion: A diprotic acid is an acid that yields two H + ions per acid molecule. Examples of diprotic acids are sulfuric acid, H 2 SO 4 , and carbonic acid, H 2 CO 3 . A diprotic acid dissociates in water in two stages: (1) H 2 X(aq) ← → H + (aq) + HX (aq) (2) HX (aq) ← → H + (aq) + X 2– (aq) Because of the successive dissociations, titration curves of diprotic acids have two equivalence points, as shown in Figure 1. The equations for the acid-base reactions occurring between a diprotic acid, H 2 X, and sodium hydroxide base, NaOH, are from the beginning to the first equivalence point: (3) H 2 X + NaOH ← → NaHX + H 2 O from the first to the second equivalence point: (4) NaHX + NaOH ← → Na 2 X + H 2 O from the beginning of the reaction through the second equivalence point (net reaction): (5) H 2 X + 2 NaOH ← → Na 2 X + 2 H 2 O At the first equivalence point, all H + ions from the first dissociation have reacted with NaOH base. At the second equivalence point, all H + ions from both reactions have reacted (twice as many as at the first equivalence point). Therefore, the volume of NaOH added at the second equivalence point is exactly twice that of the first equivalence point (see Equations 3 and 5). The primary purpose of this experiment is to identify an unknown diprotic acid by finding its molecular weight. A diprotic acid is titrated with NaOH solution of known concentration. Molecular weight (or molar mass) is found in g/mole of the diprotic acid. Weighing the original sample of acid will tell you its mass in grams. Moles can be determined from the volume of NaOH titrant needed to reach the first equivalence point. The volume and the concentration of NaOH titrant are used to calculate moles of NaOH. Moles of unknown acid equal moles of NaOH at the first equivalence point (see Equation 3). Once grams and moles of the diprotic acid are known, molecular weight can be calculated, in g/mole. Molecular weight determination is a common way of identifying an unknown substance in chemistry. You may use either the first or second equivalence point to calculate molecular weight. The first is somewhat easier, because moles of NaOH are equal to moles of H 2 X (see Equation 3). If the second equivalence point is more clearly defined on the titration curve, however, simply divide its NaOH volume by 2 to confirm the first equivalence point; or from Equation 5, use the ratio: 1 mole H 2 X / 2 mol NaOH Volume NaOH pH 1st Equivalence Point 2nd Equivalence Point Figure 1

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MATERIALS: Power Macintosh or Windows PC ~0.1 M NaOH solution (standardized) Vernier computer interface magnetic stirrer (if available) Logger Pro stirring bar Vernier pH Sensor ring stand unknown diprotic acid, 0.120 g 2 utility clamps milligram balance 250-mL beaker distilled water wash bottle 50-mL buret REFERENCES: Holmquist, D.D., and Volz, D. Chemistry with Computers . Vernier Softare & Technology, Beaverton, Oregon, 2000, 25-1 – 25-6.
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