F-1 (flouride). Flourine has the strongest attraction for electrons of any element, so the oxidation state of -1 is the only one that flourine uses.
Fluorine can only form fluoride ions, F- ; it never gives off one or more of its electrons.
If by f you mean the element fluorine, it typically comes in the form of two-atom molecules.
Elements dont react to form other elements. However, compounds can react with one another or decompose to form elements. More importantly, fluorine is a diatomic molecule, which means that it will never exist as "F" but always as F2.
If you mean the name of the element with the symbol F, it is Flourine
N and P for example. Nitrogen will form a N3- the nitride ion.
NO!!! Fluorine is an elemental gas , with the formula of 'F2'. Structurally (F-F ). However it does form the ion , the fluoride ion , 'F^-'.
Fluorine is an element, the symbol F would indicate its atomic form not a molecule, the symbol F2 would indicate its diatomic molecular form. Fluorine gas is the F2 diatomic molecular form not F.
No, F (fluorine) is is diatomic in its elemental form.
F (fluorine) will form an anion.
Metals typically form positive ions. The alkali metals and alkali earth metals form positive ions in ionic obnding whilst the transition metals form cations in a lattice of delocalised electrons.
Fluorine can only form fluoride ions, F- ; it never gives off one or more of its electrons.
If by f you mean the element fluorine, it typically comes in the form of two-atom molecules.
There is only one possibility for the ion form of the element fluorine:fluoride, F - , oxidation state -1.It is the most electronegatve element of all, so there is no other element able to abstract one ore more electrons FROM Fluorine.Fluoride is formed by the following reaction:F2 + 2e- --> 2 F-
It would have a charge of -1 in water, the charge would be negative.A fluoride ions has a charge of -1. Symbol: F-(B.t.w. 'Fouride Ions' as spelled in the original question is chemically unknown)
the element sulphur (S) due to the presence of unpaired electron.
P, the element is Carbon.
OF2 is covalent. Both elements O and F are nonmetals. They would both form negative ions which would not attract each other.