Potassium is K (with a 1+ valence) and the phosphate anion is PO4 (with a 3- valence). Thus, it takes 3 K's for each PO4. The formula for potassium phosphate is K3PO4.
There are several compounds that could apply to.
The simplest is potassium phosphide, K3P
This is the binary compound of potassium and phosphorus
K3P
3 potassium atoms and 1 phosphorous atom
Potassium Phosphate = K3PO4
Potassium phosphate = K3PO4
K31+po43-
K3po4
K3P
K31+po43
K3P is the chemical formula. The name of this compound it potassium phosphide.
K3P is actually Potassium Phosphide, not to be confused with Potassium Phosphate.
Chromium(III) phosphide has the formula CrP.
Iron phosphide may be one of the following compounds: (di-)Iron phosphide, Fe2P (tri-)Iron phosphide, Fe3P And to complete the picture, monoiron phosphide, FeP.
Iron(II) Phosphide = Fe3P2 Iron(III) Phosphide = FeP
Formula: K3P
K3P is the chemical formula. The name of this compound it potassium phosphide.
Potassium is K and Phosphorous is P. A compound formed from them is Potassium Phosphide which is K3P
K3P, potassium phosphide
K3P is actually Potassium Phosphide, not to be confused with Potassium Phosphate.
You'll find that it is neither. K3N doesn't have the capacity to exist.
Cesium phosphide is Cs3P
This phosphide is MnP.
Chromium(III) phosphide has the formula CrP.
PP
Iron phosphide may be one of the following compounds: (di-)Iron phosphide, Fe2P (tri-)Iron phosphide, Fe3P And to complete the picture, monoiron phosphide, FeP.
The chemical formula for calcium phosphide is Ca3P2