FeP. Iron(III) means that the iron has an oxidation state of 3, and could be considered to be Fe3+. Phosphides generally contain P3- and this is true for the group1 and group 2 metals There is one iron phosphide Fe3P used as a semiconductor, so it is not ionic! You cannot use oxidation number nomenclature on that compound you have to go the "triiron monophosphide" route instead.
I do not think there is actually a compound with the formula FeP.
Naming phosphides using the oxidation state nomenclature is risky, phosphorus forms many different "ions" and also forms binary compounds where the phosphorus is "interstitial" .
Iron (III) phosphide is the chemical name for the compound having the formula FeP. Iron (III) phosphide has the weight of 86.82 grams per mole.
The chemical formula for iron(II) phosphide is Fe3P.
Formula: FeP
Formula: [Fe3+][P3-]
Formula: FeP
Fe3P2
Cobalt(III) phosphide
its gold(III) phosphide
Fe2(SO4)3
The chemical formula Fe2O3 is for the chemical compound known as Iron(III) oxide. Its melting point is 2,851 degrees Fahrenheit.
Chromium Phosphide... Cr is the element Chromium and P is the element Phosphorus (It's a binary ionic compound -2 elements- so the second element ends in -ide)
Iron Phosphate OR PhosphiteMY ANSWERActually I'm pretty sure it's Iron (III) Phosphide
Iron Phosphphide = FeP Iron (III) = Fe3+ Phosphorous= P3_
Iron(II) Phosphide = Fe3P2 Iron(III) Phosphide = FeP
The chemical formula for the compound formed between iron(III) and iodine is FeI3 (iron(iii) iodide).
Ferric Phosphide
Chromium(III) phosphide has the formula CrP.
Formula: TiP
FeP. Iron(III) means that the iron has an oxidation state of 3, and could be considered to be Fe3+. Phosphides generally contain P3- and this is true for the group1 and group 2 metals There is one iron phosphide Fe3P used as a semiconductor, so it is not ionic! You cannot use oxidation number nomenclature on that compound you have to go the "triiron monophosphide" route instead. I do not think there is actually a compound with the formula FeP. Naming phosphides using the oxidation state nomenclature is risky, phosphorus forms many different "ions" and also forms binary compounds where the phosphorus is "interstitial" .
Gold III phosphide is AuP.
Cobalt(III) phosphide
its gold(III) phosphide
Formula: FeN