It is the most electronegative of all elements - it needs electric current to isolate it - it cant be isoalted chemically. It is element number 9 and badly wants to become Neon 10 which would be extremley stable. To do this it needs to aquire 1 electron and hence -1 is the only feasible oxidation state for it
No. Fluorine has only two oxidation states. 0 in F2 and -1 in fluoride ion
Fluorine is the most electronegative element, meaning it has a strong tendency to attract electrons. In chemical compounds, fluorine tends to gain one electron to achieve a stable electron configuration, resulting in an oxidation number of -1. This unique oxidation number is a result of fluorine's high electronegativity and its preference for a full valence shell.
The element with oxidation states of +2 and +3 only is chromium (Cr).
Lithium typically exhibits an oxidation number of +1, as it tends to lose one electron to form a stable cation.
In most compounds oxygen will have an oxidation state of -2. The only exceptions are peroxides (-1), superoxides (-1/2), and compounds in which oxygen bonds with fluorine (+1 or +2).
No. Fluorine has only two oxidation states. 0 in F2 and -1 in fluoride ion
Fluorine is the most electronegative element, meaning it has a strong tendency to attract electrons. In chemical compounds, fluorine tends to gain one electron to achieve a stable electron configuration, resulting in an oxidation number of -1. This unique oxidation number is a result of fluorine's high electronegativity and its preference for a full valence shell.
In these reaction, an element simultaneously undergoes oxidation as well as reduction. This is possible only when the element exhibits minimum three different oxidation states and on the reactant side, it is present in an intermediate oxidation state while higher and lower oxidation states are exhibited by it in the form of products.
Fluorine is a halogen. It shows only -1 as the oxidation number.
Fluorine forms only one oxoacid, which is hydrofluoric acid (HF), because it is highly electronegative and prefers to bond with hydrogen in the +1 oxidation state rather than oxygen in higher oxidation states. This results in the formation of a single stable oxoacid.
Fluorine is the only halogen that does not naturally exist in any positive oxidation state. The other halogens - chlorine, bromine, iodine, and astatine - can exist in various positive oxidation states, though they are less common in nature compared to their negative oxidation states.
Fluorine is a halogen. It shows only -1 when combined with other elements.
oxygen and fluorine
The element with oxidation states of +2 and +3 only is chromium (Cr).
Lithium typically exhibits an oxidation number of +1, as it tends to lose one electron to form a stable cation.
In most compounds oxygen will have an oxidation state of -2. The only exceptions are peroxides (-1), superoxides (-1/2), and compounds in which oxygen bonds with fluorine (+1 or +2).
Zinc commonly exists in compounds in the +2 oxidation state only, and as a metal with an oxidation state of 0.0, 1 and 2 oxidation states