The idea behind drawing the Lewis structure of the atom of a compound is to get an understanding of the chemical and physical properties the compound would possess. The structure uses dots and lines to depict electrons and the bonds between 2 electrons, respectively. Now, let us move to study the lewis structure of the Br2 molecule in detail.Ī compound’s Lewis Structure depicts the arrangement of its underlying valence shell electrons.
Compound molecular geometry table full#
Just like the other halogens, its shortcoming of 1 electron in forming an octet makes it a potent oxidizing agent, and is, therefore, reacts with various elements to complete its need of 1 electron to form a full octet configuration in the outermost shell and attain stability.ĭibromine is formed when 2 atoms of Bromine combine to attain stability. In fact, it is available in the form of a soluble colorless halide crystalline mineral salt, like table salt.Įven though it is rarely available in the Earth’s crust, it is accumulated in the oceans due to the high solubility of the Bromide ion (Br-).īromine has 7 electrons in its outermost shell which acts as its valence electrons. The elemental Bromide is extremely reactive and therefore does not materialize freely in nature. Its atomic number is 35 and the atomic mass is 79.90 u.īromine is the third lightest of the halogens and can be found in the form of both a smoldering reddish-brown liquid at normal room temperature and a reddish-brown gas.īeing in the same group as Fluorine, Chlorine, and Iodine, it exhibits similar chemical properties. Bromine or Br is a Halogen found in the Group 7A of the periodic table.
0 kommentar(er)
