How do elements with high electronegativities typically form ions?

Elements with high electronegativities have a strong ability to attract electrons towards themselves. When these elements form ions, they typically gain electrons to achieve a stable electron configuration, often resembling that of the nearest noble gas. This process allows them to attain a full outer shell, which is a driving force behind chemical reactivity.

When an element with high electronegativity gains electrons, it becomes negatively charged, forming an anion. In many chemical reactions, these elements not only attract electrons but also lead to the oxidation of other species by taking electrons from them, thereby acting as oxidizing agents. This role can be observed in various chemical processes, such as the formation of halide ions from halogens, where the highly electronegative halogens gain an electron to form stable anions.

The other methods of forming ions or bonds mentioned in the remaining options do not accurately represent the typical behavior of high electronegativity elements. Losing electrons aligns more with metals, sharing electrons is characteristic of covalent bonding behavior, and metallic bonds pertain to metals rather than highly electronegative nonmetals.