Basically, I got the same answer but in a different way to the video, was this just a fluke or was it correct?
First here's the video and I'm talking about the second part of the question @ 4:57 (there is some previous information before this given by the problem that you need to know if you want to solve the question).
https://www.khanacademy.org/science/chemistry/acid-base-equilibrium/titrations/v/titration-of-a-weak-acid-with-a-strong-base?modal=1100mL of 0.050M [NaOH] is added to 50mL of 0.200M [CH3COOH], what is the pH of the resultant solution? K_a = 1.8x10-5
So what I did was converted the molar concentration of NaOH and CH3COOH given into moles and then set up this equation:
NaOH(aq) + CH3COOH(aq) → H2O(l) + CH3COONa(aq)
Subtracted the moles of NaOH (5x10-3 mol) from CH3COOH (0.001 mol) and added that to the moles of CH3COONa (0 mol).
Result: left with 5x10-3 mol CH3COOH and gained 5x10-3 mol CH3COONa, wrote another equation that comments on the significant chemical species for helping determine H3O+ conc.
CH3COOH(aq) + H2O(l) ⇌ H3O+(aq) + CH3COO-.
Then I converted everything's moles into molar concentration. (using the combined solution of 100 mL + 50 mL). Both would be 0.033M.
At this point I used an ICE table to determine what the equilibrium concentrations would be.
Initial:
CH3COOH: 0.033M H3O+: 0M CH3COO-: 0.033M.
Change:
CH3COOH: -x H3O+: +x CH3COO-: +x
(my reasoning: reaction runs forwards as H3O+ initial = 0M).
Equlibrim:
CH3COOH: 0.033M -x H3O+: x CH3COO: 0.033M+x
Setting up K_a for acetic acid (and assuming x is negligible):
1.8x10-5 = x(0.033)/(0.033).
x = 1.8x10-5M, this is our H3O+ concentration at equilbrium. Plug that into pH = -log[H3O+]
pH = 4.74, same answer as the video but I didn't use Henderson-Hasselbalch equation, legit or fluke?
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Topic: Titration of a weak acid with a strong base, help with my method. (Read 1533 times)