Hydrogen, Oxygen, Chlorine, Fluorine, Iodine, Bromine, Tellurium, Selenium, Sulphur, Nitrogen, etc.
Chlorine to make sodium chloride or salt.
Th bc: El 90 cc &89&8 beta 3
Halogens react with sodium.
a metal and a nonmetal such as sodium and sulfur which would make sodium sulfide
Ionic bond exist between metals and nonmetals.
sodium and oxygen
Gold does not easily bond with other elements found in the earth. However, sodium bonds quite easily with other common elements such as nitrogen and chlorine, so to find pure sodium is unlikely.
Formation of iodides; for example sodium iodide, NaI.
a metal and a nonmetal such as sodium and sulfur which would make sodium sulfide
Ionic bond exist between metals and nonmetals.
sodium and oxygen
Gold does not easily bond with other elements found in the earth. However, sodium bonds quite easily with other common elements such as nitrogen and chlorine, so to find pure sodium is unlikely.
Formation of iodides; for example sodium iodide, NaI.
Sodium chloride has ionic bonds.
Sodium
Ionic bonds
If you meant to say "elements ARE most likely to bond with," which is probably what you meant, then the answer would be 7A(or 17), also called the Halogens. "Halogen" actually means "salt-forming." When you take a chlorine (7A) and sodium (1A), you end up with table salt! ---- In a nutshell, the answer is Group 7A, or 17.
Argon
Highly electronegative and highly electropositive elements, e.g. Fluorine, Clorine, Oxygen, or Nitrogen and Sodium, Potassium, Rubidium, Cesium or Barium.
A metallic bond.