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Close Problem Tutored Practice Problem 4.5.9 C R ISS CRADE Use an acid-base titration to calculate...
A 0.4352-g sample of an unknown monoprotic acid is dissolved in water and titrated with standardized potassium hydroxide. The equivalence point in the titration is reached after the addition of 31.14 mL of 0.1833 M potassium hydroxide to the sample of the unknown acid. Calculate the molar mass of the acid. _____ g/mol
Tutored Practice Problem 17.3.2 COUNTS Calculate pH for a weak acid/strong base titration. Close Problem Determine the pll during the titration of 57.0 ml of 0.303 M formie acid (K, - 1.8*10*) by 0.303 M N OH at the following points. (a) Before the addition of any NaOH (b) After the addition of 14.0 mL of NaOH (c) At the half-equivalence point the titration midpoint) (d) At the equivalence point (e) After the addition of 85.5 mL of NaOH Check...
4.5e Question 1 Question 2 We now know the moles of hydroxide used in the titration. But, remember that, of the 100 mL of solution made from the ashes, only 20 mL were used for the titration. What is the total amount of hydroxide produced by the ashes? Volume HCl used: 5.44 mlL Concentration HCI solution 0.10 M 5.44x 10 mol HCl used 5.44 x 104 mol OH in 20 ml. solution mol OH A 1.527-g sample of an unknown...
Tutored Practice Problem 17.3.3 COURTS TOWARDS GRADE Calculate pH for a weak base/strong acid titration. Close Problem Determine the pH during the titration of 31.9 mL of 0.388 M ammonia (NH3, Kb - 1.8*10*) by 0.388 M HNO, at the following points. (a) Before the addition of any HNO3 (b) After the addition of 12.3 mL of HNO, (c) At the titration midpoint (d) At the equivalence point (e) After adding 45.6 mL of HNO3 HP OfficeJet 4650 series Check...
Close Problem Tutored Practice Problem 17.3.1 COUNTS TOWARDS GRADE Calculate pH for a strong acid/strong base titration. Determine the pH during the titration of 29.5 mL of 0.237 M HCIO, by 0.237 M KOH at the following points: (a) Before the addition of any KOH (b) After the addition of 14.8 mL of KOH (c) At the equivalence point (d) After adding 38.1 mL of KOH кон Check & Submit Answer Show Approach
Tutored Practice Problem 17.3.1 GOUNTIS TOWARDS CADE Calculate pH for a strong acid/strong base titration. Determine the pH during the titration of 20.3 mL of 0.197 M HCIOA by 0.197 M KOH at the following points: (a) Before the addition of any KOH (b) After the addition of 10.2 mL of KOH (c) At the equivalence point (d) After adding 24.8 mL of KOH Check & Submit Answer Show Approach MacBook Air
5. The Ka and Molar Mass of a Monoprotic Weak Acid a. Suppose that–unknown to you–the primary standard KHP (potassium hydrogen phthalate, KHC8H4O4) had a potassium iodide impurity of approximately one percent by mass. How would this have influenced the calculated molarity of your sodium hydroxide solution? Would your calculated value be too low, too high, or unchanged? Explain your answer. b. Sketch a typical titration curve for a monoprotic weak acid titrated with a strong base. Label the axes...
A 0.258-g sample of a pure triprotic acid, H3A, (where A is the generic anion of the acid), was dissolved in water and titrated with 0.150 M barium hydroxide solution. The titration required 13.9 mL of the base to reach the equivalence point. What is the molar mass of the acid ? Question 25 3.5 pts A 0.258-g sample of a pure triprotic acid, H3A, (where A is the generic anion of the acid), was dissolved in water and titrated...
Tutored Practice Problem 17.2.7 COURS TOWARDS CITIDE Prepare a buffer by acid-base reactions. Close Problem Consider how to prepare a buffer solution with pH = 9.07 (using one of the weak acid/conjugate base systems shown here) by combining 1.00 L of a 0.436-M solution of weak acid with 0.317 M potassium hydroxide. к. Weak Acid HNO2 HCIO HCN Conjugate Base NO2 CIO CN 4.5 x 104 3.5 x 108 4.0 x 10-10 pK, 3.35 7.46 9.40 How many L of...
Multi part question Tutored Practice Problem 17.2.3 COUNTS TOWARDS GRADE Calculate pH of a weak base/conjugate acid buffer solution A 0.420-M aqueous solution of C5H;N (pyridine) has a pH of 9.40. Calculate the pH of a buffer solution that is 0.420 M in C5H5N and 0.178 M in C;H5NH pH- Consider how to prepare a buffer solution with pH 3.03 (using one of the weak acid/conjugate base systems shown here) by combining 1.00 L of a 0.370-M solution of weak...