Yes, any combination of a metal and a nonmetal could potentially form am ionic compound. However, some reactions may have to be forced by raising temperature, changing pressure, or stressing equilibrium. In this particular case, though, they would react to make CaCl2 or calcium chloride.
When cesium and fluorine react, they form the ionic compound cesium fluoride (CsF).
No, iodine and sulfur would not typically form an ionic compound. Both iodine and sulfur are nonmetals and tend to form covalent compounds when they react with each other.
Yes. Calcium and sodium will form an ionic compound because calcium is a metal and sodium is also a metal, and when metals react with each other, they typically form ionic compounds by transferring electrons.
Yes, the elements potassium and chlorine will react--very vigorously--to form the ionic compound potassium chloride.
Ionic compounds are formed between metals and non-metals.
When cesium and fluorine react, they form the ionic compound cesium fluoride (CsF).
sodium
No, iodine and sulfur would not typically form an ionic compound. Both iodine and sulfur are nonmetals and tend to form covalent compounds when they react with each other.
No, nitrogen and fluorine will not form an ionic compound. They are both nonmetals and tend to form covalent bonds when they react with each other.
An ionic compound can form interactions with water. Water happens to be a polar molecule. The positive ions are going to react with the partially charged negative ions (that are in the water). The negative ions will react with the partially positive charged hydrogen atoms in the water. But the ionic compound won't dissolve in oil because it can't form the same reaction.
Yes. Calcium and sodium will form an ionic compound because calcium is a metal and sodium is also a metal, and when metals react with each other, they typically form ionic compounds by transferring electrons.
Yes, the elements potassium and chlorine will react--very vigorously--to form the ionic compound potassium chloride.
Ionic compounds are formed between metals and non-metals.
Elements with one extra electron that can easily donate it to sodium are likely to react with two atoms of sodium to form an ionic compound. For example, chlorine (Cl) and fluorine (F) can react with two sodium atoms to form ionic compounds such as sodium chloride (NaCl) and sodium fluoride (NaF).
Calcium would form Ca2+ and chlorine would form Cl-. The ionic compound would be CaCl2 to ensure a neutral charge for the whole compound.
An ionic compound can form interactions with water. Water happens to be a polar molecule. The positive ions are going to react with the partially charged negative ions (that are in the water). The negative ions will react with the partially positive charged hydrogen atoms in the water. But the ionic compound won't dissolve in oil because it can't form the same reaction.
When carbon reacts with chlorine, the result is a covalent compound, specifically, carbon tetrachloride. And of course, all sorts of organic compounds can be chlorinated by partial or complete replacement of hydrogen atoms by chlorine. But the compound will never be ionic.