Barium can form two distinct compounds with oxygen as the only other element in the compound: barium oxide with formula BaO and barium peroxide with formula BaO2. The first of these compounds is more common and more stable.
Yes, because barium is from the left side of the Periodic Table and oxygen is from the right side.
the answer is BaO
Barium oxide.
The oxides of barium are BaO and BaO2.
BaO
Bao
Yes! Barium is a group 2 metal and so loses two electrons. Oxygen is a group 16 non metal and will readily pick up two electrons. So, they form BaO.
Two bromide ions can combine with one barium cation to form an ionic compound, because a barium cation has an electrical charge of +2, while a bromide anion has an electrical charge of -1.
ionic and covalent compound
No. There are several compounds of chlorine and oxygen, but all of them are molecular.
Two
Yes. Barium oxide is an ionic compound. Generally a metal with a nonmetal will form an ionic compound.
Yes! Barium is a group 2 metal and so loses two electrons. Oxygen is a group 16 non metal and will readily pick up two electrons. So, they form BaO.
Barium gives its two electrons to two chlorine atoms (to form chloride ions) and they form an ionic compound barium chloride.
Two bromide ions can combine with one barium cation to form an ionic compound, because a barium cation has an electrical charge of +2, while a bromide anion has an electrical charge of -1.
ionic and covalent compound
BaO because Ba 2+ and 0 2- form an ionic bond with the simplest whole number ratio.
Nearly all metals will form ionic compounds with oxygen, or 'oxides', as they are called.
Yes. Barium iodide is ionic
Two atoms of chlorine are needed, one to accept each of the barium electrons in an ionic compound, barium chloride (BaCl2).
No. There are several compounds of chlorine and oxygen, but all of them are molecular.
No. Barium is a Group 2 element, and as such will lose its two valence electrons to form a Ba2+ ion when forming an ionic compound.
The difference in electronegativity between sulfur and oxygen is not sufficient to form ionic bonds.