Consider the following diprotic acid H2Z characterized by the following equilibria:
H2Z(aq) D H+(aq) + HZ–(aq) Ka1 = 2 x 10–5 pKa1 = 4.70
HZ–(aq) D H+(aq) + Z2–(aq) Ka2 = 4 x 10–8 pKa2 = 7.40
a. Calculate the pH of a solution of 0.085 M H2Z.
b. Calculate the pH of a solution of 0.085 M NaHZ.
c. Calculate the pH of a solution of 0.085 M Na2Z.
d. Calculate the pH of a solution composed of 0.070 M NaHZ and 0.080 M Na2Z.
Consider the following diprotic acid H2Z characterized by the following equilibria: H2Z(aq) D H+(aq) +...
A diprotic acid, H,A, has acid dissociation constants of Ka1 = 2.09 x 104 and Ka2 = 3.96 x 10-11. Calculate the pH and molar concentrations of H,A, HA-, and A2- at equilibrium for each of the solutions. A 0.183 M solution of H,A pH H,A= A2-1 HA] = A 0.183 M solution of N2HA. HA pH= HA A2- A 0.183 M solution of Na, A H,A ] pH= HA A2-1 M M A diprotic acid, H,A, has acid dissociation...
a) The consecutive equilibria: CO2(g) <=>CO2(aq) + H2O(l) <=>H2CO3(aq) <=>H+(aq) + HCO3-(aq), explain why: A. carbonated beverages are less acidic than pure water. B. carbonated beverages contain measurably less water than the same volume of pure water. C. rainwater is slightly acidic b) A 1.0 M solution of a weak monoprotic acid with Ka = 1.0 10-6 would have a pH of: A. 1 B. 2 C. 3 D. 6 c) Ascorbic acid is a diprotic acid with Ka1 =...
Consider weak monoprotic acid HA(aq) D H+(aq) + A–(aq) with Ka = 4.0 x 10–5 and pKa = 4.40. A solution is composed of 900.0 mL of 0.090 M HA and 0.080 M NaA (10 points). (a) Calculate the pH of this solution. (b) Calculate the pH of the above solution following the addition of 10.00 mL of 2.0 M NaOH (a strong base).
a) The consecutive equilibria: CO2(g) <=>CO2(aq) + H2O(l) <=>H2CO3(aq) <=>H+(aq) + HCO3-(aq), explain why: A. carbonated beverages are less acidic than pure water. B. carbonated beverages contain measurably less water than the same volume of pure water. C. rainwater is slightly acidic b) A 1.0 M solution of a weak monoprotic acid with Ka = 1.0 10-6 would have a pH of: A. 1 B. 2 C. 3 D. 6 c) Ascorbic acid is a diprotic acid with Ka1 =...
A diprotic acid, H₂A, has Ka1 = 3.4 × 10⁻⁴ and Ka2 = 6.7 × 10⁻⁹. What is the pH of a 0.18 M solution of H₂A?
A diprotic acid, H,A, has acid dissociation constants of Ka1 = 4.05 x 10-4 and Ka2 = 4.12 x 10-". Calculate the pH and molar concentrations of H,A, HA, and A2- at equilibrium for each of the solutions. A 0.133 M solution of H, A H,A= pH 0.126 2.15 м A2- HA- М 4.12 x10-11 7.14 x10-3 М A 0.133 M solution of NaHA H,A pH= HA- A2-1 |м м A 0.133 M solution of Na, A H,A= |м pH...
Hydrosulfuric acid, also known as hydrogen sulfide, is a diprotic acid. Its two-stage ionization is shown below: H2S(aq) ⇆ H + + HS- (aq) Ka1 = 5.70x10-8 HS- (aq) ⇆ H + + S2- (aq) Ka2 = 1.0x 10-9 a. Calculate the concentration of HS- ion in a 0.222 M H2S solution. b. Determine the pH of the solution. c. Determine the S2- concentration. Please write out all answers step-by-step :-)
A diprotic acid, H2A, has acid dissociation constants of Ka1=1.01×10−4 and Ka2=4.08×10−12. Calculate the pH and molar concentrations of H2A, HA−, and A2−at equilibrium for each of the solutions. A diprotic acid, H, A, has acid dissociation constants of Kal = 1.01 x 104 and K22 = 4.08 x 10-12. Calculate the pH and molar concentrations of H, A, HA, and A? at equilibrium for each of the solutions. A 0.176 M solution of H, A. pH= pH = 1...
Carbonic acid, H2CO3 is a diprotic acid with Ka1 = 4.3 x 10-7 and Ka2 = 5.6 x 10-11. What is the pH of a 0.47 M solution of carbonic acid?
Maleic acid is a weak diprotic acid with : pKa1 = 1.87 pKa2 = 6.07 A 10.00 mL solution of 0.1000 M maleic acid is titrated with 0.1000 M NaOH. Calculate the pH of the solution at the first equivalence point.