part A : As a technician in a large pharmaceutical research firm, you need to pr
ID: 954682 • Letter: P
Question
part A :
As a technician in a large pharmaceutical research firm, you need to produce 400. mL of a potassium dihydrogen phosphate buffer solution of pH = 6.76. The pKa of H2PO4 is 7.21.
You have the following supplies: 2.00 L of 1.00 M KH2PO4 stock solution, 1.50 L of 1.00 M K2HPO4 stock solution, and a carboy of pure distilled H2O.
How much 1.00 M KH2PO4 will you need to make this solution? (Assume additive volumes.)
part B:
If the normal physiological concentration of HCO3 is 24 mM, what is the pH of blood if PCO2drops to 24.0 mmHg ?
Explanation / Answer
let
y L of K2HP04 be taken
then
volume of KH2P04 = 0.40 - y
we know that
moles = molarity x volume (L)
so
moles of K2HP04 = 1 x y = y
moles of KH2P04 = 1 x (0.40-y) = 0.35-y
now
we know that
for buffers
pH = pKa + log [base /acid]
so
pH = pKa + log [ K2HP04 / KH2P04]
6.76 = 7.21 + log [ K2HP04 / KH2P04]
[ K2HP04 / KH2P04] = 0.3548
as the final volume is same for both
moles of K2HP04 / KH2P04 = 0.3548
moles of K2HP04 = 0.60256 x moles of KH2P04
so
y = 0.3548 x ( 0.40 - y)
y = 0.10476
so
volume of K2HP04 = 0.10476 L = 104.76 ml
volume of KH2P04 = 400 - 104.76 = 295.24 ml
B)
given
pH = pKa + log [HC03-] / (0.03 x PC02)
given
[HC03-] = 24 mM
pC02 = 24
pKa = 6.1
so
using those values
we get
pH = 6.1 + log [ 24 / 0.03 x 24]
pH = 7.623
so
pH of the blood is 7.623
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