+2 for Mg and -2 for O
For Mg the oxidation no is +2 while it is -2 for oxygen.
0 in the elemental form +2 in its compounds
2 apex
The oxidation number of magnesium in MgO is +2. Magnesium typically forms ions with a +2 charge, while oxygen typically forms ions with a -2 charge. In MgO, the overall charge of the compound is neutral, so the oxidation number of magnesium must be +2 to balance the -2 charge of oxygen.
Two elements with a +2 oxidation state and a -1 oxidation state would likely form a compound with the formula XY2. For example, magnesium (Mg) and oxygen (O) can form magnesium oxide (MgO), where magnesium has a +2 oxidation state and oxygen has a -2 oxidation state.
For Mg the oxidation no is +2 while it is -2 for oxygen.
+2
The oxidation state of magnesium in MgO is +2. Magnesium typically forms ionic compounds where it loses two electrons to achieve a stable electronic configuration, resulting in an oxidation state of +2 in MgO.
0 in the elemental form +2 in its compounds
2 apex
The oxidation number of magnesium in MgO is +2. Magnesium typically forms ions with a +2 charge, while oxygen typically forms ions with a -2 charge. In MgO, the overall charge of the compound is neutral, so the oxidation number of magnesium must be +2 to balance the -2 charge of oxygen.
The correct IUPAC name for MgO is magnesium oxide. In this compound, magnesium (Mg) is a metal that forms a cation with a +2 charge, while oxygen (O) is a nonmetal that forms an anion with a -2 charge. The name reflects the elements involved and their oxidation states.
+2 for Mg -2 for O
The O in oxides always has oxidation number -2 (except for in peroxides where it is -1). Since the overall species has oxidation number 0, Mg must also have oxidation number +2.
Magnesium oxide (MgO) is not attacked by atmospheric oxygen because MgO has a high heat of formation and a stable lattice structure. This makes it energetically unfavorable for oxygen to react with MgO under normal atmospheric conditions.
2! Mg and O
Two elements with a +2 oxidation state and a -1 oxidation state would likely form a compound with the formula XY2. For example, magnesium (Mg) and oxygen (O) can form magnesium oxide (MgO), where magnesium has a +2 oxidation state and oxygen has a -2 oxidation state.