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Co(BrO3)2 would be named cobalt(II) bromate
Three. They belong to the bromide ion.
Cobalt(II) carbonate
I'm assuming this was meant to be seeking the chemical formula for Iron (III) bromide, also known as Ferric bromide. In this case, the cation is Fe3+ (The iron III part of the name) The anion is Br- (the bromide part of the name) Since it is an ionic compound, you simply have to put the two ions within the compound in a ratio that will cause their net charge to balance out to zero. If we had one Fe3+ ion and three Br- ions, we would cancel out the charge, since (1)(3)+(3)(-1)=0 (1 ion of plus-3 charge + 3 ions of minus-1 charge). The end result is this formula: FeBr3
A 'Bromide' does not exist independently but is a salt of hydrobromic acid HBr, and therefore the bromide ion has to be combined with a metal ion to produce a stable independent compound. The most common bromides are Potassium Bromide KBr and Sodium Bromide NaBr, although there are others like Ammonium Bromide NH4Br (where the '4' is small and subscript), Magnesium Bromide MgBr2 (where the '2' is small and subscript), and Aluminium Bromide AlBr3 (where the '3' is small and subscript).
Co(BrO3)2 would be named cobalt(II) bromate
Tetra aqua chloro nitro cobalt 3 bromide
Three. They belong to the bromide ion.
Cobalt(II) carbonate
Cobalt has a melting point of 1495 degrees Celsius (2723 Fahrenheit), so it is a solid at normal environmental temperatures.
Iodite is the hypothetical polyatomic ion, IO2-. Cobalt(III) carries a 3+ charge. Therefore Cobalt(III) iodite: Co(IO2)3
Cobalt = Co transition metal and has a charge of 3+ Bromide = Br halogen and has a charge of 1- Co of 3+ and Br of 1- Cross method Metal First Formula: CoBr3
Cobaltous ion has a +2 oxidation state. Cobaltic ion has a +3 oxidation state Cobaltous chloride: CoCl2 Cobaltic chloride: CoCl3
I'm assuming this was meant to be seeking the chemical formula for Iron (III) bromide, also known as Ferric bromide. In this case, the cation is Fe3+ (The iron III part of the name) The anion is Br- (the bromide part of the name) Since it is an ionic compound, you simply have to put the two ions within the compound in a ratio that will cause their net charge to balance out to zero. If we had one Fe3+ ion and three Br- ions, we would cancel out the charge, since (1)(3)+(3)(-1)=0 (1 ion of plus-3 charge + 3 ions of minus-1 charge). The end result is this formula: FeBr3
There is no anion which is named Tribromide, but the Bromide ion exists. The Tribromide is formed when a compound has 3 Bromine atom attached to an less electronegative element.
A 'Bromide' does not exist independently but is a salt of hydrobromic acid HBr, and therefore the bromide ion has to be combined with a metal ion to produce a stable independent compound. The most common bromides are Potassium Bromide KBr and Sodium Bromide NaBr, although there are others like Ammonium Bromide NH4Br (where the '4' is small and subscript), Magnesium Bromide MgBr2 (where the '2' is small and subscript), and Aluminium Bromide AlBr3 (where the '3' is small and subscript).
Of bromide, chloride, hydroxide, and phosphate, the ion commonly present in fertilizers is phosphate. typical fertilizers are given 3 numbers to identify the components (such as 10-10-10). The middle number is phosphate.