This number is -1.
Fluorine typically has an oxidation state of -1.
In NF3, the element fluorine is more electronegative compared to nitrogen. The oxidation number of F in NF3 is -1. Lets assume then the oxidation number of N is x x + 3(-1) =0 x= +3 Oxidation number of Nitrogen in NF 3 is +3. In NI3, the element fnitrogen is more electronegative compared to iodine. The oxidation number of N in NI3 is -3. Lets assume then the oxidation number of I is y (-3) + 3y) =0 x= +1 Oxidation number of Iodine in NI3 is +1 Oxidation number of Nitrogen in NF 3 is +3. +3, as there is three halogens in each compund, therefore their oxidation number will add up to -3 and so to balance it out, nitrogen must be +3.
The oxidation state of F in HOF (hydrogen monofluoride) is -1. Hydrogen is typically assigned an oxidation state of +1, leaving the fluorine with an oxidation state of -1.
Fluorine is so electronegative that there isn't really anything that can oxidize it.
Cryolite, with the chemical formula Na3AlF6, contains sodium (Na), aluminum (Al), and fluorine (F). In this compound, sodium has an oxidation state of +1, aluminum has an oxidation state of +3, and fluorine has an oxidation state of -1. Therefore, the overall oxidation states are: Na (+1), Al (+3), and F (-1).
The oxidation number for fluorine is -1.
The oxidation number for iodine in IF is -1. Fluorine always has an oxidation number of -1 in compounds.
The compound with the highest oxidation number would be an oxide of fluorine, such as OF₂. In this compound, the oxidation state of fluorine is +2, which is the highest oxidation state observed for fluorine.
0 as it is a molecule of fluorine if anything is combined with fluorine then it has an oxidation number of -1
Fluorine's oxidation number is -1. Since there are four fluorine atoms, the total oxidation number for the fluorine portion of the molecule is -4. The carbon atomwould have to have an oxidation number of +4 so that the compound would have an overall oxidation number of 0.
The oxidation number of oxygen when combined with fluorine is -1. Oxygen usually has an oxidation number of -2, but when combined with a more electronegative element like fluorine, oxygen's oxidation number becomes -1.
The oxidation number of fluorine in the fluorine molecule (F2) is 0. In a molecule composed of the same element (like F2), each atom has an oxidation number of 0.
The oxidation number of F, or Fluorine, is F-1. Since it is in the seventh group on the periodic table, it has seven valence electrons. It needs to get eight valence electrons to be stable, so it will gain one electron.
No. Fluorine has only two oxidation states. 0 in F2 and -1 in fluoride ion
In compounds fluorine, F, has an oxidation number of -1.
The oxidation number of iodine in IF7 is +7. This is because fluorine is more electronegative than iodine, so each fluorine atom in the compound carries an oxidation number of -1. Since there are 7 fluorine atoms in IF7, the total charge from fluorine is -7, which means iodine must have an oxidation number of +7 to balance the charge.
Fluorine. Oxygen has a -2 oxidation number in all compounds except peroxides and compunds with fluorine (+1 or +2)