Create a spreadsheet that will calculate fractional composition for a diprotic acid given the equilibrium constants.

given a diprotic acid, H2A, with two ionization constants of Ka1 = 1.6×10^-4 and Ka2 =...

given a diprotic acid, H2A, with two ionization constants of Ka1 = 1.6×10^-4 and Ka2 = 5.2×10^-11, calculate the ph for a .206 M solution of NaHA

A diprotic acid, H2A, has acid dissociation constants of Ka1 = 3.48× 10–4 and Ka2 =...

A diprotic acid, H2A, has acid dissociation constants of Ka1 = 3.48× 10–4 and Ka2 = 3.21× 10–12. Calculate the pH and molar concentrations of H2A, HA–, and A2– at equilibrium for each of the solutions below.(a) a 0.153 M solution of H2A.(b) a 0.153 M solution of NaHA.(c) a 0.153 M solution of Na2A

Malonic acid, H2C3H2O4, is a diprotic acid, with the following acid dissociation constants. Ka1 = 1.4...

Malonic acid, H2C3H2O4, is a diprotic acid, with the following acid dissociation constants. Ka1 = 1.4 × 10–3Ka2 = 2.0 × 10–6 Calculate the amount of HC3H2O4‒ present in a 0.80 M H2C3H2O4(aq) solution. A.3.3 × 10‒2M B.1.3 × 10‒3M C.2.6 × 10‒4M D.2.0 × 10‒6M When I solved this problem I found that K1=3.3x10^-2, and K2=1.3x10^-3. My question is how can you tell which Ka is correct? How can you pick when both answers are listed?

Oxalic acid is a diprotic acid that occurs naturally in some plants. Calculate the pH and...

Oxalic acid is a diprotic acid that occurs naturally in some plants. Calculate the pH and the concentrations of all species present in a 0.96-M solution. The acid dissociation constants are K1 = 5.9 10-2 and K2 = 6.4 10-5. I have part A but i cannot get part B,C or D a.) [C2O4H2] .71 correct b.) [C2O4H − ] C.)[C2O42-] D.) pH

A diprotic acid, H2A, has the following ionization constants: Ka1 = 1.1 10-3 and Ka2 =...

A diprotic acid, H2A, has the following ionization constants: Ka1 = 1.1 10-3 and Ka2 = 2.5 10-6. In order to make up a buffer solution of pH 5.80, which combination would you choose, NaHA/H2A or Na2A/NaHA? NaHA/H2A Na2A/NaHA pKa of the acid component

Malonic acid is a diprotic acid with pKa1 = 2.85 and pKa2 = 5.70. Calculate the...

Malonic acid is a diprotic acid with pKa1 = 2.85 and pKa2 = 5.70. Calculate the pH of a 0.50-M aqueous malonic acid solution.

Chromic acid, H2CrO4 is a diprotic acid, with pKa values of 0.86 and 6.51. Calculate the...

Chromic acid, H2CrO4 is a diprotic acid, with pKa values of 0.86 and 6.51. Calculate the total alkalinity for a water sample containing 10-3 M Na2CO3 and 10-4 M H2CrO4

1. TITRATION PROBLEM: Oxalic acid is a diprotic acid. Calculate the percent of oxalic acid (H2C2O4)...

1. TITRATION PROBLEM: Oxalic acid is a diprotic acid. Calculate the percent of oxalic acid (H2C2O4) in a solid given that a 0.7984 gram sample of that solid required 37.98 mL of 0.2283 M NaOH for neutralization. Show your work! 2. TITRATION PROBLEM: Some sulfuric acid is spilled on a lab bench. You can neutralize the acid by sprinkling sodium bicarbonate on it and then mopping up the resultant solution. 2 NaHCO3(s) + H2SO4(aq) --> Na2SO4(aq) + 2 CO2(g) +...

To learn how to calculate ion concentrations in an aqueous solution of a strong diprotic acid....

To learn how to calculate ion concentrations in an aqueous solution of a strong diprotic acid. Sulfuric acid, H2SO4, is a strong acid. Its complete dissociation in aqueous solution is represented as H2SO4?H++HSO4? A HSO4? anion can dissociate further by HSO4??H++SO42? but the extent of dissociation is considerably less than 100%. The equilibrium constant for the second dissociation step is expressed as Ka2=[H+][SO42?][HSO4?]=0.012 Part A Calculate the concentration of H+ ions in a 0.010 M aqueous solution of sulfuric acid....

To learn how to calculate ion concentrations in an aqueous solution of a strong diprotic acid....

To learn how to calculate ion concentrations in an aqueous solution of a strong diprotic acid. Sulfuric acid, H2SO4, is a strong acid. Its complete dissociation in aqueous solution is represented as H2SO4?H++HSO4? A HSO4? anion can dissociate further by HSO4??H++SO42? but the extent of dissociation is considerably less than 100%. The equilibrium constant for the second dissociation step is expressed as Ka2=[H+][SO42?][HSO4?]=0.012 Part A Calculate the concentration of H+ ions in a 0.010 M aqueous solution of sulfuric acid....