The reaction of chlorine and sulfur can give a few different products, each of which is considered to have covalent rather than ionic bonding.
Yes. Potassium and sulfur make an ionic compound called potassium sulfide with the formula unit K2S.
No, they do not.
no it forms a covalent compound
no
Yes. These two elements alone will form ionic sodium sulfide, and together with oxygen they can form several other ionic compounds such as Na2SO4.
The compounds in the system nitrogen-sulfur are not ionic.
ionic and covalent compound
No. There are several compounds of chlorine and oxygen, but all of them are molecular.
Ionic- thers is a large electronegativity difference between sodium and oxygen leading to electron transfer.
No, they form covalent bonds. Sulfur dioxide, SO2, for instance.
Yes. These two elements alone will form ionic sodium sulfide, and together with oxygen they can form several other ionic compounds such as Na2SO4.
Sulfur can form both ionic and covalent compounds. For example, sulfur dioxide is a covalent compound whereas sulfides of metals are ionic compounds.
Sulfur can form ionic compounds (eg SO2), but Xenon is a noble gas and does not react to form compounds.
The compounds in the system nitrogen-sulfur are not ionic.
silcon has the lowest electronegtaivity so would most likely form covalent bonds. Sulfur is next (although with group1 and 2 metals it forms ionic compounds) oxygen and chlorine have high electronegativites so form many ionic compounds - however they also form covalent compunds as well.
Sulfur and oxygen will form polar covalent bond
Nonmetals burning in oxygen form covalent type compounds, as compared to metals which form ionic compounds.
ionic and covalent compound
Nearly all metals will form ionic compounds with oxygen, or 'oxides', as they are called.
The difference in electronegativity between sulfur and oxygen is not sufficient to form ionic bonds.
Tin can form weakly ionic bonds with several non metals including oxygen, sulfur and chlorine.