That's what im asking about.
I'm so confused when diprotic acid dissociate in water, would the products be acidic or basic in water?
if HSO4- is acidic, then what about SO4 2-? is it acidic or basic in water?
is this a general rule for diprotic acid?
then what about H3PO4?
Also, SO4 2- can evidently not be acidic as it does not have a proton to donate. SO4 2- is a weak base because it is the conjugate base of the weak acid HSO4 -.
H3PO4 is a weak acid, so it does not fully ionise in water. Hence, H2PO4- can be treated as a weak, base as it is the conjugate base of a weak acid. HOWEVER! for examples of water testing to test for a phosphate ion, we need to have the phosphate ion on its own in solution. Hence, we make the solution basic.
H3PO4 <---> 3H+ and PO4 3-.
By le chateliers principle, a change in the concentration of products (OH- reacting with H+ reducing H+ concentration) will result in an opposing shift in equilibrium, shifting to the right and forming more individual phosphate ions. Then after this has occurred we can test for phosphate ions by precipitation. So as can be seen by this experiment, certain acids act differently under different conditions due to le chateliers principle.