Pb2+ + I- --> PbI2(s)
potassium and acetate ions are left out of the equation, because they don't react (stay unchanged in solution)
sodium acetate = Na+C2H3O2- (a salt) nitric acid = HNO3 equation: NaC2H3O2 + HNO3 --> NaNO3 + C2H4O2
Pb(C2H3O2) + K2CrO4 > PbCrO4
KC2H3O2 is Potassium acetate. K- Potassium C2H3O2 - acetate
Pb2+(aq)+2Cl-(aq)→PbCl2(s)
The formula for potassium sulphite is K2SO3.
A reaction doesn't occur.
potassium acetate
2CH3COONa+H2SO4 ---> 2CH3COOH+Na2SO4
Al(C2H3O2)3 + K3PO4 ==> AlPO4 + 3 C2H3O2Kor looked at another way... Al(CH3COO)3 + K3PO4 ==> AlPO4 + 3 CH3COOK
sodium acetate = Na+C2H3O2- (a salt) nitric acid = HNO3 equation: NaC2H3O2 + HNO3 --> NaNO3 + C2H4O2
Pb(C2H3O2) + K2CrO4 > PbCrO4
HC2H3O2(aq) + KOH(aq) → KC2H3O2(aq) + H2O(l)...... I don't know about Net Ionic, but i think this is correct
KC2H3O2 is Potassium acetate. K- Potassium C2H3O2 - acetate
The preparation equation depends on the route by which this compound is prepared. A simple route is neutralization of acetic acid with potassium hydroxide: KOH + CH3COOH --> H2O + K+CH3COO-
Cu(CH3COO)2 + Na2CO3 = CuCO3 + 2 CH3COONa
As a soluble substance we wouldn't expect to find potassium acetate in nature.
Potassium acetate is not corrosive as chloride salts and it is not a pollutant of soils.