Answer:
Molar mass of the diprotic acid is 424 grams
Explanation:
[hint: diprotic acid only contains 2 hydrogen protons]
Ionic equation:
[tex]{ \bf{2OH { }^{ - } _{(aq)} + 2H { }^{ + } _{(aq)}→ 2H _{2} O _{(l)} }}[/tex]
first, we get moles of potassium hydroxide in 28.94 ml :
[tex]{ \sf{1 \: l \: of \: KOH \: contains \: 0.3021 \: moles}} \\ { \sf{0.02894 \: l \: of \: KOH \: contain \: (0.02894 \times 0.3021) \: moles}} \\ { \underline{ = 0.008743 \: moles}}[/tex]
since mole ratio of diprotic acid : base is 2 : 2, moles are the same.
Therefore, moles of acid that reacted are 0.008743 moles.
[tex]{ \sf{0.008743 \: moles \: of \: acid \: weigh \: 3.7066 \: g}} \\ { \sf{1 \: mole \: of \: acid \: weighs \: ( \frac{1 \times 3.7066}{0.008743}) \: g }} \\ = { \underline{423.95 \: g \approx424 \: grams}}[/tex]
for the molar mass:
