Chapter 10 Polyprotic Acid-Base Equilibria

Chapter 10 Polyprotic Acid-Base Equilibria QCA7e Chapter10

Contents in Chapter10 • 1. Species/Concentrations Calculations of Polyprotic Acids • 1) Species/Conc. Calculations of Diprotic Acids • 2) pH Calculations of Triprotic Acids • 3) pH Calculations of Amino Acids • Polyprotic Buffers • Conditional Principal Species • 1) Ladder Diagrams • 2) Fractional Composition Diagram • 4. Isoelectric Point QCA7e Chapter10

Species/Concentrations Calculations of Polyprotic Acids • 1) Species/Conc. Calculations of Diprotic Acids • Hydrolysis constants revisit (for H2A, NaHA, Na2A) • H2A + H2O  H3O+ + HA–Ka1 • A2– + H2O  OH– + HA–Kb1 • HA– + H2O  H3O+ + A2– Ka2 • HA– + H2O  OH– + H2A Kb2 QCA7e Chapter10

1) Species/Conc. Calculations of Diprotic Acids Example 1: 計算0.1 F之H2A的pH值，以及[H3O+]、[OH–]、[H2A]、[HA–]、[A2–]=? (Ka1=1x10–3, Ka2=1x10–7) H2A + H2O  H3O+ + HA- Ka1 = 1x10-3 x x 0.1-x 設[H3O+] = [HA–] [H3O+] = [HA–] = 0.0095 M, pH=2.02 [OH–]=10–(14–2.02)=1.05x10–12 M HA– + H2O  H3O+ + A2– ∵已設[H3O+] = [HA–]∴[A2–] = 1.0x10–7 M [H2A] = 0.1 – 0.0095 - 1.0x10–7 = 0.0905 M QCA7e Chapter10

Example 2: 計算0.1 F之Na2A的pH值，以及[H3O+]、[OH–]、[H2A]、[HA–]、[A2–]=? (Ka1=1x10–3, Ka2=1x10–7) A2- + H2O  OH– + HA– Kb1= 1x10–7 x x 0.1-x 設[OH–] = [HA–] [OH–] = [HA–] = 1.0x10–4 M [H3O+]= 1.0x10–10M, pH=10 HA– + H2O  OH– + H2A ∵已設[OH–] = [HA–]∴[H2A]=1.0x10–11 M [A2–] = 0.1 – 1.0x10–4 – 1.0x10–11 = 0.1 M QCA7e Chapter10

Example 3: 計算0.1 F之 NaHA 的pH值，以及[H3O+]、[OH–]、[H2A]、[HA–]、[A2–]=? (Ka1=1x10–3, Ka2=1x10–7) (NaHA 為 amphiprotic sbustance, 需導公式了) HA− + H2O  H3O+ + A2− Ka2 HA− + H2O  OH− + H2A Kb2 Mass balance: [Na+]=0.1 (1) [H2A] + [HA–] + [A2–] = 0.1 (2) Charge balance: [Na+] + [H3O+] = [OH–] + [HA–] +2[A2–] (3) (2)+(3) [H2A] + [Na+] + [H3O+] = 0.1 + [OH–] + [A2–] 又由 (1) 知 [Na+] = 0.1 ∴ [H2A] + [H3O+] = [OH–] + [A2–] (4) QCA7e Chapter10

∵ and 代入(4)得 (5) 只剩下[H3O+]和[HA-]兩個未知數了 (5) × [H3O+]得 (6) 整理一下 (7) (8) QCA7e Chapter10

(9) (10) ***** (11) HA– + H2O  H3O+ + A2– Ka2 HA– + H2O  OH– + H2A Kb2 設[HA–]>>[A2–]，[HA–]>>[H2A]，則[HA–]=FHA– 依此假設代入(11)得 (12) QCA7e Chapter10

(11)式引申： 一般而言，Ka1Ka2[HA–]>>Ka1Kw，[HA–]>>Ka1，所以： (13) 亦即： Remark: Successive approximations can resulted more accurate result, please read p.186/Box 10-1/Harris QCA 7th Ed. QCA7e Chapter10

2) pH Calculations of Triprotic Acids • Hydrolysis constants revisit (for H3A, NaH2A, Na2HA, Na3A) • H3A + H2O  H3O+ + H2A- Ka1 = Kw/Kb3 • A3– + H2O  OH– + HA2–Kb1 = Kw/Ka3 • H2A– + H2O H3O+ + HA2–Ka2 = Kw/Kb2 • H2A– + H2OOH– + H3A Kb3 = Kw/Ka1 • HA2– + H2OH3O+ + A3– Ka3= Kw/Kb1 • HA2– + H2O  OH– + H2A– Kb2 = Kw/Ka2 QCA7e Chapter10

Example 1: Calculate pH prepared from H3A H3A + H2O  H3O+ + H2A–Ka1 FH3A-x x x pH = ..... QCA7e Chapter10

Example 2: Calculate pH prepared from Na3A A3– + H2O  OH– + HA2–Kb1 FA3–– x x x pOH = ....., pH=..... QCA7e Chapter10

Example 3: Calculate pH prepared from NaH2A H2A– + H2O  H3O+ + HA2–Ka2 H2A– + H2OOH– + H3A Kb3 =Kw/Ka1 QCA7e Chapter10

Example 4: Calculate pH prepared from Na2HA HA2– + H2O  H3O+ + A3– Ka3 HA2– + H2O  OH– + H2A– Kb2 =Kw/Ka2 QCA7e Chapter10

3) pH Calculations of Amino acids • Terms and Definition • Zwitterion: A dipolar compound with acidic and basic groups in the same molecule (a compound with positive and negative charge in the same molecule). For example, amino acid generally exists in the form of +H3NCHRCOO–, behaves an internal neutralization form. QCA7e Chapter10

Nonionized Amino acid Ionized Amino acid H2O OH– H3O+ H2O QCA7e Chapter10

ii) Acid dissociation constants (Ka) of amino acids Type A2– Type H2A Type HA– H2L+ + H2O  H3O+ + HLKa1 L– + H2O  OH– + HLKb1 HL + H2O  H3O+ + L–Ka2 HL + H2O  OH– + H2L+ Kb2 QCA7e Chapter10

QCA7e Chapter10

iii) pH Calculations of Amino acids (Diprotic type) H2L+ + H2O  H3O+ + HLKa1 L– + H2O  OH– + HLKb1 HL + H2O  H3O+ + L–Ka2 HL + H2O  OH– + H2L+ Kb2 Leucine for example: QCA7e Chapter10

Example: Followings are the acid dissociation constants of leucine: • +H3NCHCOOH + H2O  H3O+ + +H3NCHCOO–pKa1= 2.328 • +H3NCHCOO– + H2O H3O+ + H2NCHCOO–pKa2= 9.744 • What is the pH of a solution prepared from 0.05 M H2NCHCOOH·HCl, that is (+H3NCHCOOH)(Cl–)? • What is the pH of a solution prepared from 0.05 M H2NCHCOONa, that is (Na+)(H2NCHCOO–)? • What is the pH of a solution prepared from 0.05 M (H2NCHCOOH)? • Solution: • H2L+, i.e., H2A type • L–, i.e., A2– type • HL, i.e., HA– type Ans: (A) pH = 1.88, (B) pH = 11.22, (C) pH = 6.06 QCA7e Chapter10

iv) pH Calculations of Amino acids (Triprotic type) QCA7e Chapter10

Polyprotic Buffers 1) Diprotic Buffers, H2A type for example QCA7e Chapter10

Example 1: Find the pH of a solution prepared by dissolving 1.00 potassium hydrogen phthalate (KHP fw 204.221) and 1.20 g of disodium phthalate (Na2P fw 210.094) in 50.0 mL of water. (phthalic acid: pKa1 = 2.950, pKa2 = 5.408) Solution: QCA7e Chapter10

Example 2: How many mL of 0.8000 M KOH should be added to 3.38 g of oxalic acid (H2Ox, MW 90.035) to give a pH of 4.40 when diluted to 500 mL? (oxalic acid: pKa1 = 1.27, pKa2 = 4.266) Solution: pH of solution 4.40: Using [Ox2–]/[HOx–] pair pH (4.40) > pKa2 (4.266): [Ox2–] > [HOx–] Step 1: mL NaOH for converting H2Ox to HOx– QCA7e Chapter10

Step 2: HOx– + OH– Ox2– + H2O Initial 0.03754 mol x – Change –x –x x Final 0.3754 –x 0 x Step 3: 46.92 mL + 27.05 mL = 73.97 mL Ans: 73.97 mL KOH added QCA7e Chapter10

2) Triprotic Buffers QCA7e Chapter10

3. Conditional Principal Species 1) Ladder diagrams i) At pH = pKa, [A–]=[HA] QCA7e Chapter10

ii) QCA7e Chapter10

iii) QCA7e Chapter10

2) Fractional composition diagram i) For monoprotic acid: F = CT: α0 = αHA, α1=αA– ..... QCA7e Chapter10

ii) For diprotic acid: Fractional Compositional H2A Excel Operation QCA7e Chapter10

iii) For triprotic acid: QCA7e Chapter10

Isoelectric Point (Isoelectric pH, called pI) Definition: The pH at which average charge of the polyprotic acid is 0. QCA7e Chapter10

Examples: All Exercise： A-H Problems: 1-4, 6, 9, 11-12, 15, 17-18, 22-27, 36, 38 End of Chapter 10 QCA7e Chapter10

App 1: Systematic pH Calculations of HA Systematic approach for pH calculation of monoprotic acid (HA): Charge balance: [H3O+] = [A–] + [OH–] (1) Mass balance: CHA = [HA] + [A–] (2) Equilibrium constant: (3) Rewrite (1) [A–] = [H3O+] – [OH–] (4) Substituting (4) into (2) and the rewrite [HA] = CHA – [H3O+] + [OH–] (5) Substituting (4) and (5) into (3) (6) QCA7e Chapter10

Rearrange (6) (7) Solving quadratic equation (7) (8) (9) (10) QCA7e Chapter10

App 2: Systematic pH Calculations of H2A Systematic approach for pH calculation of diprotic acid (H2A) Charge balance: [H3O+] = [HA–]+2[A2–] + [OH–] (1) Mass balance: CH2A = [H2A]+[HA–] + [A2–] (2) Equilibrium constant: (3) (4) Rewrite (3) (5) Substituting (4) into (5), the rewrite (6) QCA7e Chapter10

Substituting (5) and (6) into (2) (7) Rearrange (7) (8) Substituting (8) into (5) (9) (10) QCA7e Chapter10

Substituting (9) and (10) into (1), the rearrange (11) Substituting (9) and (10) into (1), the rearrange (12) Solving quadratic equation (12) (13) QCA7e Chapter10

(14) (15) It is commercial available now: Chemical Calculator: http://www.chembuddy.com/ QCA7e Chapter10

App 3: pH Calculations Summary 請自行練習！！ QCA7e Chapter10

Chapter 10 Polyprotic Acid-Base Equilibria

Chapter 10 Polyprotic Acid-Base Equilibria

Presentation Transcript

Acid-Base Equilibria

Chapter 15: Acid-Base Equilibria

Chapter 16. Acid –Base Equilibria

Chapter 18 : Acid-Base Equilibria

Chapter 17: Acid-base equilibria

Chapter 15 Acid-Base Equilibria

Chapter 16: Acid-Base Equilibria

Acid-Base Equilibria

Chapter 16 Acid-Base Equilibria

Acid-Base Equilibria

Polyprotic Acid-Base Equilibria

Chapter 10 Polyprotic Acid-Base Equilibria

Acid-Base Equilibria

Chapter 16 Acid-Base Equilibria

ACID-BASE EQUILIBRIA

Chapter 16 Acid-Base Equilibria

Chapter 17 Acid-Base Equilibria

Chapter 3: Acid – Base Equilibria

Chapter 15 Acid-Base Equilibria

Chapter 3: Acid – Base Equilibria

Chapter 16 Acid-Base Equilibria