Using the equivalence point volumes determined from the expanded titration graph or the first derivative graph,...
Using the equivalence point volumes determined from the expanded titration graph or the first derivative graph, the volume of acetic acid titrated (pipet volume), and the concentration of your diluted NaOH standard solution, calculate the concentration of the unknown acid solution.
Equivalence point volume= 18.5
Concentration of diluted NaOH= 0.19709
Volume acetic acid= 5 mL (diluted in 70 mL dH20 but I guess it does not matter?)
Homework Answers
concentration of unkown acid can be calculated via:
mmol of acid = mmol of base
so
mmol of base = MV = 0.19709*18.5 = 3.646165 mmol of OH-
so
mmol of H+ = 3.646165 mmol
therefore
initial volume of acid:
V = 5 mL
[acid] = mmol/mL = 3.646165/5 = 0.729233 M of acid
Add Answer to:
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4) Set up the calculation required to determine
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5) Set up the calculation required to determine
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In the second image it states that after I
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until there's no PH change. How do I identify when the equivalence
point is?
Preparation of the unknown weak acid Select the NaOH and fill the buret with the now standardized NaOH solution. [NaOH]=0.097M Record the initial buret volume in your Notebook. 3 Using the volumetric pipet, transfer 25.00 mL of the unknown weak acid to the Erlenmeyer flask....
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its conjugate, and the other half still remains unreacted.
If 0.4400.440 moles of a monoprotic weak acid
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