ANSWER D,E & F

In some natural systems the pH must be maintained within very narrow limits. e.g. in human blood the pH must remain close to 7.4 or cell deterioration occurs. Blood contains several weak acid/conjugate base equilibria called buffers, which control the pH.

One weak acid present in blood is the dihydrogen phosphate ion, H₂PO₄^-(aq), for which the equilibrium in aqueous solution is H₂PO₄^-(aq) +H₂O(l) <--> HPO₄^2-(aq) + H₃O⁺(aq).

a) What would be the effect on this equillibrium of adding hydrochloric acid solution?

b) Write the expression for the equilibrium constant of this reaction.

c) If 0.5 mol H₂PO₄^- and 0.5 mol HPO₄^2- are in equilibrium in 1.0L of aqueous solution, calculate the pH of the solution. (Ka for H₂PO₄^-= 6.4 x 10^-8)

d) 0.010 mol HCl is now added to the 1.0L of the solution in c). Assuming that all the added H⁺ ions are used up in the equilibrium shift, calculate the concentrations of H₂PO₄^- and HPO₄^2-. Hence calcuate the pH of this solution.

e) 0.010 mol HCl has been added to water then made up to 1.0L of solution. Calculate the pH.

f) From the above results comment on the effectiveness of the H₂PO₄^- / HPO₄^2- equilibrium on the control of pH in blood.