Yes.
The products of the reaction are solid calcium sulfate and aqueous lithium nitrate.
Ba(NO3)2aq) + Li2SO4(aq) → BaSO4(s) + 2LiNO3(aq) Apologies as I can't subscript using my mobile.
No reaction occurs
Sodium sulfate can exist in an aqueous solution but it can also exist on its own as a crystalline solid.
If the sodium sulfate and barium nitrate are both in solution in water, a precipitate of barium sulfate will be formed, because this salt is much less soluble in water than barium nitrate, sodium sulfate, or sodium nitrate.
The products of the reaction are solid calcium sulfate and aqueous lithium nitrate.
Lead nitrate + potassium sulfate ---> Lead sulfate + Potassium nitrate
Ba(NO3)2aq) + Li2SO4(aq) → BaSO4(s) + 2LiNO3(aq) Apologies as I can't subscript using my mobile.
No reaction occurs
The white solid precipitated when an aqueous solution of barium chloride is mixed with an aqueous solution of sodium sulfate is named "barium sulfate" and has the formula BsSO4.
Iron sulfate dissolves in water to make an aqueous solution of iron sulfate.
Sodium sulfate can exist in an aqueous solution but it can also exist on its own as a crystalline solid.
If the sodium sulfate and barium nitrate are both in solution in water, a precipitate of barium sulfate will be formed, because this salt is much less soluble in water than barium nitrate, sodium sulfate, or sodium nitrate.
Net Ionic: Pb2+(aq)+SO42-(aq) --> PbSO4(s) Molecular: Pb(NO3)2(aq) + K2SO4(aq) --> PbSO4(s) + 2KNO3(aq)
The aqueous solution of ferrous sulfate, FeSO4, is light green on heating. It changes to yellow then brown due to formation of ferric sulfate.
Add sulfuric acid to a solution of silver nitrate.
Lithium and nitrate don't react. Only ... ... are precipitating to solid. (SO42-)aq + (Ba2+)aq --> (BaSO4)s