At neutralisation the moles of H⁺ from the acid equal the moles of OH⁻ from the base. Equating valence × concentration × volume gives the volume of base needed.
Neutralisation is the point where the released by an acid exactly matches the released by a base, with nothing left over. The two amounts, in moles, are equal.
Neutralise 10 mL of 0.05 mol/L sulfuric acid, , which is diprotic, with 0.1 mol/L sodium hydroxide, , which is monoprotic.
The acid supplies
and the volume of base that supplies the same amount of is
The commonest error by far is leaving out the valence.
Sulfuric acid gives up two hydrogen ions per molecule, so at equal concentration and volume it demands twice as much base as hydrochloric acid does.
The equivalence point is not always pH 7. Neutralising a strong acid with a weak base leaves a salt that makes the solution slightly acidic, so the equivalence point falls below 7. This is exactly why titrations choose between methyl orange and phenolphthalein as the indicator.
Note also that the equation cares nothing for whether the acid is strong or weak. A weak acid such as acetic acid reacts completely in the end, so the amount of base it needs is unchanged.