Calcium Chloride
Ca (calcium) is an element, not a compound. and it can only form ionic compounds.
Calcium nitride (Ca3N2) will form from the bonding of calcium (Ca) and nitrogen (N) atoms. It is an ionic compound where the calcium atom donates two electrons to each nitrogen atom to form a stable crystal lattice structure.
You can combine calcium (Ca) with other elements through chemical reactions to form compounds. For example, combining calcium with chlorine would result in calcium chloride (CaCl2). This compound is commonly used in road de-icing and in food and beverage industries.
Ca(2+) and Br- are common ions; the neon ion probable doesn't exist.
Calcium Chlorite (used in domestic swimming pools)
Calcium would form Ca2+ and chlorine would form Cl-. The ionic compound would be CaCl2 to ensure a neutral charge for the whole compound.
Calcium (Ca) is the element that may form a compound with CrO4 (chromate). The compound formed would be calcium chromate, CaCrO4.
a compound
Ca (calcium) is an element, not a compound. and it can only form ionic compounds.
Calcium Chloride
When calcium (Ca) reacts with sulfur (S), they form calcium sulfide (CaS), a compound where one calcium ion is bonded to one sulfur ion through an ionic bond. The chemical formula for this compound is CaS.
This is an example of a synthesis reaction, where two elements (calcium and chlorine) react to form a compound (calcium chloride) with the release of energy.
When these two elements form an ionic compound (either with each other or with any other elements) then those are the ions that they form, Ca+2 and F-1.
CaPo is the chemical formula of calcium polonide.
polar
We know that the alkaline earth metal calcium (Ca) and the halogen bromine (Br) form the ionic compound calcium bromide (CaBr2). Here's the reaction: Ca + 2Br => CaBr2
Calcium bromide (CaBr2) will form when calcium (Ca) and bromine (Br) react together. In this compound, one calcium atom will combine with two bromine atoms to create a neutral ionic compound with a 1:2 ratio of calcium to bromine atoms.