Inorganic salts such as Calcium chloride, barium fluoride, magnesium iodide etc are formed.
alkaline earth metal forms a +2 cation and halogen forms a -1 anion alkaline earth metal is a metal and halogens are non metals therefore the bond between them is ionic
why nitrogen form compound with alkaline earth metal
The formula would be MO. (M representing any of the Alkaline earth metals)
The alkali group of metals is the most active.
In general, alkaline earths are very reactive and all have a valency of +2. They will thus combine with one oxygen or two halogen atoms etc.
alkaline earth metal forms a +2 cation and halogen forms a -1 anion alkaline earth metal is a metal and halogens are non metals therefore the bond between them is ionic
Chlorine is a Halogen. Along with the rest of the elements in the group. Mostly ending with ine. Bromine and Fluorine for example.
No, it's an alkaline earth metal.
why nitrogen form compound with alkaline earth metal
No. Astatine is a halogen. The alkaline earth metals are in the column second from the left of the periodic table.
highly reactive with alkali metals and alkaline earth metals
why nitrogen form compound with alkaline earth metal
An example of a compound containing an alkaline earth metal is calcium carbonate (CaCO3), which is commonly found in minerals like limestone and marble. Another example is magnesium hydroxide (Mg(OH)2), which is used in antacid medications.
Astatine is a heavy halogen; no similarities with strontium (alkaline earth metal).
Barium is an alkaline earth metal. It is located in Group 2 of the periodic table, which includes other alkaline earth metals like magnesium and calcium. Barium is known for its reactivity, particularly with water, and it typically forms compounds that are basic in nature. It is not an alkali metal, which are found in Group 1, nor is it a halogen, which are located in Group 17.
The formula would be MO. (M representing any of the Alkaline earth metals)
The total mass percentage of alkaline earth metal ions is higher than that of alkaline metal ions in a compound since alkaline earth metals have a higher atomic mass compared to alkali metals. This means that alkaline earth metals contribute more to the total mass of the compound when present as ions.