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Imagine it took 300 mL of 0.1 M LiOH to reach the first equivalence point and an additional 300 mL of 0.1 M LiOH (600 mL total) to reach the second equivalence point. How many moles of H2 were in the original acid solution

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Answer:

0.03 mol H₂

Explanation:

In a diprotic acid titration, the first equivalence point relates to the equilibrium:

  • H₂A + OH⁻ ↔ HA⁻ + H₂O

And the second equivalence point to:

  • HA⁻ + OH⁻   ↔ A⁻² + H₂O

We can add those two equations and we're left with:

  • H₂A + 2OH ⁻ ↔ A⁻² + 2H₂O

So to calculate the moles of H₂ that were in the original acid solution we use the total volume used (in this case 600 mL).

600 mL ⇒ 600/1000 = 0.6 L

We calculate the moles of LiOH, using its molar concentration:

  • 0.1 M * 0.6 L = 0.06 mol LiOH

And now we convert moles of LiOH (or OH⁻) to moles of H₂ using the  stoichiometric ratio:

  • 0.06 mol LiOH * [tex]\frac{1molH_{2}A}{2molLiOH}[/tex] = 0.03 mol H₂

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