potassium, chloride and oxygen
K2O2 is the molecular formula for the compound potassium peroxide. Since both potassium (K) and oxygen (O) have a subscript of "2", a potassium peroxide molecule contains two potassium atoms and two oxygen atoms.
A compound containing potassium and oxygen atoms would have a formula of K2O, and would be named potassium oxide. This is a binary ionic compound.
Ionic because the compound contains potassium (metal) and oxygen/hydrogen (non-metals) :)
I guess that ur question refers to the K2O in solid state. Based on electronegativity their bond should be ionic. I guess that ur question refers to the K2O in solid state. Based on electronegativity their bond should be ionic.
potassium, chloride and oxygen
Yes.
K2O2 is the molecular formula for the compound potassium peroxide. Since both potassium (K) and oxygen (O) have a subscript of "2", a potassium peroxide molecule contains two potassium atoms and two oxygen atoms.
A compound containing potassium and oxygen atoms would have a formula of K2O, and would be named potassium oxide. This is a binary ionic compound.
A compound containing potassium and oxygen atoms would have a formula of K2O, and would be named potassium oxide. This is a binary ionic compound.
Ionic because the compound contains potassium (metal) and oxygen/hydrogen (non-metals) :)
I guess that ur question refers to the K2O in solid state. Based on electronegativity their bond should be ionic. I guess that ur question refers to the K2O in solid state. Based on electronegativity their bond should be ionic.
the chemical formula for potassium and Oxygen is: K2O Because Potassium has a charge of 1+. And Oxygen has a charge of 2- Hope this helps!
K2CO3 is potassium carbonate and is made up of two potassium, one carbon, and three oxygen molecules.
Potassium iodide is ionic.
I think KCI ionic compound name is Potassium Chloride.
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.