hydrogen sulfide
This would be an ionic bond. The element with 11 protons would be sodium. The element with 17 protons would be chlorine. Sodium Chloride which is ionic would be the result.
Among the naturally occurring elements, the most likely one would be cesium, the least electronegative of all elements. In practice, any of the other alkali metals and any of the alkaline earth metals would usually react readily with chlorine gas, as would many of the transition metals.
It would be Phosphorus (P) and chlorine (Cl).
Magnesium
Magnesium
This would be an ionic bond. The element with 11 protons would be sodium. The element with 17 protons would be chlorine. Sodium Chloride which is ionic would be the result.
any element that is a non metal will do
Sodium is one.
Among the naturally occurring elements, the most likely one would be cesium, the least electronegative of all elements. In practice, any of the other alkali metals and any of the alkaline earth metals would usually react readily with chlorine gas, as would many of the transition metals.
Lithium
Chlorine oxide would be a covalent compound, and not an ionic compound.
It would form a ionic bond due the the Mg2+ and 2Cl-.
Yes
This bond is ionic.
It would be Phosphorus (P) and chlorine (Cl).
The single "most likely" element that would form an ionic compound with fluorine is cesium, or possibly francium if enough of it could be collected. This is because cesium, among stable elements, has the lowest electronegativity and fluorine has the highest electronegativity. However, any alkali or alkaline earth metal element in fact readily forms an ionic compound with fluorine, as do many other metals.
Chlorine is an element on the periodic table. If you look, its average atomic mass is 35.5 amus. It would be a compound if it was 'connected' with another element, ie Hydrogen. HCl is considered a compound, but chlorine (Cl) alone is just an element.