Nothing happens, all possible salts are very soluble: Potassium and sodium salts are always soluble!
Do you want that for Monopotassium phosphate, dipotassium phosphate, or tripotassium phosphate? --------------------------------- To clarify for the previous answerer, ionic compounds inherently don't use the mono-, di-, or tri- system used for molecular compounds. Instead, when a cation and an anion is supplied, the ionic compound assumes the number of cations and anions that will generate a neutral ionic compound. In this case, since K is 1+ and PO4 is 3-, the compound potassium phosphate always refers to K3PO4. Therefore: 3AgNO3 + K3PO4 -> 3KNO3 + Ag3PO4
nigggers
2K+Cl2------->2KCl
The balanced equation is: Zn(C2H3O2)2 + NaPO4 --> ZnPO4 + Na(C2H3O2)2.
2KBr + Cl2 ----> 2KCl + Br2
3 K2Cr2O7 + 2 (NH4)3PO4 ------------3 (NH4)2Cr2O7 + 2 K3PO4
give me balanced equation for potassium gold cyanide? give me balanced equation for potassium gold cyanide?
Potassium nitrate is too stable and so is silver for these two species to react. There is thus no balanced equation.
The chemical formula (not equation) is KClO3
If you mean the chemical formula, it is Ag3PO4
2K + Cl2 ---> 2KCl
It is impossible to balance that equation.
3KBrO3 + AlPO4 ------> K3PO4 + Al(BrO3)3
KCl will not decompose
Do you want that for Monopotassium phosphate, dipotassium phosphate, or tripotassium phosphate? --------------------------------- To clarify for the previous answerer, ionic compounds inherently don't use the mono-, di-, or tri- system used for molecular compounds. Instead, when a cation and an anion is supplied, the ionic compound assumes the number of cations and anions that will generate a neutral ionic compound. In this case, since K is 1+ and PO4 is 3-, the compound potassium phosphate always refers to K3PO4. Therefore: 3AgNO3 + K3PO4 -> 3KNO3 + Ag3PO4
4KClO3= 3KClO4+KCl
nigggers