What are the products of K_3PO_4 + AlCl_3K3PO4+AlCl3?
1 Answer
Aluminium phosphate and aqueous potassium chloride.
Explanation:
Potassium phosphate,
"K"_3"PO"_text(4(aq]) -> 3"K"_text((aq])^(+) + "PO"_text(4(aq])^(3-)K3PO4(aq]→3K+(aq]+PO3−4(aq]
"AlCl"_text(3(aq]) -> "Al"_text((aq])^(3+) + 3"Cl"_text((aq])^(-)AlCl3(aq]→Al3+(aq]+3Cl−(aq]
When these two solutions are mixed, the aluminium cations,
The potassium cations,
This means that you have
"K"_3"PO"_text(4(aq]) + "AlCl"_text(3(aq]) -> "AlPO"_text(4(s]) darr + 3"KCl"_text((aq])K3PO4(aq]+AlCl3(aq]→AlPO4(s]⏐↓+3KCl(aq]
The complete ionic equation, which features all the ions present in solution, will be
3"K"_text((aq])^(+) + "PO"_text(4(aq])^(3-) + "Al"_text((aq])^(3+) + 3"Cl"_text((aq])^(-) -> "AlPO"_text(4(s]) darr + 3"K"_text((aq])^(+) + 3"Cl"_text((aq])^(-)3K+(aq]+PO3−4(aq]+Al3+(aq]+3Cl−(aq]→AlPO4(s]⏐⏐↓+3K+(aq]+3Cl−(aq]
If you remove the spectator ions, which are ions present on both sides of the equation, you'll get the net ionic equation
color(red)(cancel(color(black)(3"K"_text((aq])^(+)))) + "PO"_text(4(aq])^(3-) + "Al"_text((aq])^(3+) + color(red)(cancel(color(black)(3"Cl"_text((aq])^(-)))) -> "AlPO"_text(4(s]) darr + color(red)(cancel(color(black)(3"K"_text((aq])^(+)))) + color(red)(cancel(color(black)(3"Cl"_text((aq])^(-))))
which looks like this
"Al"_text((aq])^(3+) + "PO"_text(4(aq])^(3-) -> "AlPO"_text(4(s]) darr
