(1) Write the acid dissociation constant expression for acetic acid (HC2H3O2).

(2) If the pKa of an acidic solution is 2.34, what is the acid’s corresponding Ka for that acid?

(3) Define equivalence point and discuss the difference between equivalence point and end point.

(4) When is pH = pKa?

a. As you saw in class, one way to tell the difference between a strong acid titration curve and a weak acid 0, while a weak acid's at some other pH value. Explain why it's impossible for a monoprotic weak acid to solution when you reach tit ration curve is that a strong acid's titration equivalence point will occur at pH . equivalence point will occur have an equivalence point pH s 7.0. Hint: Think about what species are present in the equivalence point. s. Diabetic ketoacidosis is a life threatening condition that occurs most frequently in individuals with unmanaged type 1 diabetes. When insulin levels drop, glucose cannot be metabolized quickly enough, and the body begins metabolizing fats instead. A byproduct of this fat metabolism is a molecule called beta-hydroxylbutyric acid (pKa = 4.1) that builds up in the bloodstream. Explain why a buildup of enough beta-hydroxybutyric acid is capable of overwhelming the carbonic acid (pKa = 6.4) buffer in the blood to create a more acidic environment. Write out the acid/base reaction that destroys the buffer when formulating your answer (you can call beta- hydroxylbutyric acid HA).