Help with Biochemistry Homework: Formic Acid, pH & Buffer Solutions

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Formic acid (HCOOH) has a pKa of 3.8 and partially dissociates in solution, with a given concentration of 0.7M for HCOOH and 0.15M for its conjugate base, HCOO-. The pH can be calculated using the Henderson-Hasselbalch equation, which helps determine the ratio of conjugate base to weak acid when the pH is adjusted to 2.8. For creating a 0.1M buffer solution at pH 3.5 using stock solutions of formic acid and sodium formate, the appropriate concentrations must be calculated based on the desired pH and total volume. Understanding these relationships is crucial for solving biochemistry homework related to acid-base equilibria and buffer preparation.
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Homework Statement


Hey, have this question which i just can't wrap my head around, any help would be appreciated.

Formic Acid (HCOOH) - pKa = 3.8 is a weak acid that partially dissociates to form its conjugate base (HCOO-) and releases protons into aqueous solutions. Whats the pH of a solution in which (HCOOH) = .7M and (HCOO-) = .15M?

Then, if the pH of sol. of Formic acid has been titrated to a final pH of 2.8, Whats the ratio of conjugate base : Weak acid?

And suppose your given stock solutions of formic acid and sodium salt of the conjugate base : (HCOOH) = 3.OM and (HCOONa) = 1.5M,
How would you make a .1 M buffer(total formic acid + sodium formate concentration), 100mL total at pH 3.5, using above solutions?

Homework Equations


The Attempt at a Solution

Hasselback equation
 
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stads_29 said:

Homework Statement


Hey, have this question which i just can't wrap my head around, any help would be appreciated.

Formic Acid (HCOOH) - pKa = 3.8 is a weak acid that partially dissociates to form its conjugate base (HCOO-) and releases protons into aqueous solutions. Whats the pH of a solution in which (HCOOH) = .7M and (HCOO-) = .15M?

Maybe this will start the neurons firing...

If you consider the equilibrium of formic acid to be

HCOOH <-----> H+ + HCOO-

and you know the concentration of HCOO-, how much H+ will you necessarily have?

Then, if the pH of sol. of Formic acid has been titrated to a final pH of 2.8, Whats the ratio of conjugate base : Weak acid?

And suppose your given stock solutions of formic acid and sodium salt of the conjugate base : (HCOOH) = 3.OM and (HCOONa) = 1.5M,
How would you make a .1 M buffer(total formic acid + sodium formate concentration), 100mL total at pH 3.5, using above solutions?


Homework Equations





The Attempt at a Solution

Hasselback equation

Yes, write out the Henderson Hasselbalch equation and see if you notice anything...

pH = pKa + Log([A-]/[HA])
 
ok got 2.3 as pH, is that right? Still not sure bout ratio. got 4.1 for the first part. Please help on the last part!? haven't clue what to do with buffer
 
2.3 - show how you get there.

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methods
 

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