The combination of potassium (K) and oxygen (O2) produces K2O (potassium oxide). The balanced equation is 2K + O2 ==> K2O. The answer provided previously is incorrect. The compound KO does not exist.
It is potassium oxide, K2O.
It is potassium oxide, KO.
oxygen
Potassium and bromine form the ionic compound potassium bromide with the chemical formula KBr.
The reaction of chlorine and sulfur can give a few different products, each of which is considered to have covalent rather than ionic bonding.
ionic and covalent compound
Yes, Potassium is a metal, specifically an alkali metal, and sulfur is a nonmetal. The alkali metals will form ionic bonds with nonmetals, including sulfur. Potassium and sulfur will form potassium sulfide, K2S.
oxygen
Potassium will form ionic compound with group 17 elements (fluorine, chlorine, bromine, iodine) and group 16 elements (oxygen, sulphur, selenium).
Yes, the elements potassium and chlorine will react--very vigorously--to form the ionic compound potassium chloride.
Potassium and bromine form the ionic compound potassium bromide with the chemical formula KBr.
The ionic compound for Potassium is K+ and the ionic compound for Oxide is O2-. So K+ + O2- = K20 From MILLY
No. They both are looking to lose an electron. One will bond with an element that will take that electron. Potassium and iodine will form ionic bonds.
The reaction of chlorine and sulfur can give a few different products, each of which is considered to have covalent rather than ionic bonding.
Potassium, hydrogen, and oxygen will form a compound called potassium hydroxide, KOH.
The cation is K+ and the anion is I-.
ionic and covalent compound
No. together potassium and silver would form an alloy, which is a kind of mixture.
Yes, Potassium is a metal, specifically an alkali metal, and sulfur is a nonmetal. The alkali metals will form ionic bonds with nonmetals, including sulfur. Potassium and sulfur will form potassium sulfide, K2S.