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Best Answer. Halogens have a high electronegativity and metals have a low electronegativity in general. Therefore, metals tend to give up their valence electrons to the halogens. This causes the ...
The metalloid in the halogens family is Astatine (At). It is a rare and highly radioactive element that exhibits properties of both metals and nonmetals. Astatine is placed below iodine in Group ...
Group 1 metals react with halogens through electron configuration. Group 1 (Alkali) metals have one electron in their outer shell.
AnswerBot. ∙ 5mo ago. Halogens commonly react with metals to form metal halides, which are ionic compounds. For example, chlorine can react with sodium to form sodium chloride (table salt ...
They are extremely reactive. When combined with water they oxidize and release hydrogen gas and lots of heat. Their outer shell of electrons is very weakly held on and so they can easily ionize to ...
Alkali metals typically bond with elements from Group 17, known as the halogens. This is because alkali metals have one electron to donate, while halogens have one electron missing to complete ...
Active metals and halogens both have a strong tendency to form ions by gaining or losing electrons in reactions. Active metals readily lose electrons to form positive ions, while halogens readily ...
Metals have a few electrons fairly loosely bound in their outer "shells", while halogens have nearly-complete outer electron "shells". The most stable configuration for an atom is to have ...
Cesium and francium are the most reactive and lithium is the least. Because the reactivity of alkali metals increases going down the group. Down the group: atomic and ionic radii and density ...
Bromine is a poor conductor of electricity, unlike some of the other halogens. It is a brown liquid under normal conditions,fluorine and chlorine are gases iodine is a solid. The other non metals ...