4, as in SiF4.
there are two for silicone.those are 0 and 4.Atomic silicon has oxidation number 0. It forms a wide variety of compounds, specially with oxygen. In these compounds, the oxidation number of silicon can vary from 0 to +4.
0 in the elemental form, +4 (most common) in its compounds.
The most probable formula for a compound of silicon and hydrogen is SiH₄, known as silane. In this compound, silicon forms four single covalent bonds with four hydrogen atoms, leading to a tetrahedral molecular geometry. Silane is a colorless gas at room temperature and is used in various applications, including in the production of silicon for electronics.
+4 is the most common and the most stable oxidation number
the most common oxidation number for oxygen is -2.
The oxidation number for oxygen in most compounds is -2.
The most common oxidation number of magnesium is +2.
The oxidation number of chlorine can vary depending on the compound it is in. It can have an oxidation number of -1 in most compounds, but it can also have positive oxidation numbers in compounds like ClO4- where it has an oxidation number of +7.
Very probable these compounds are water and silicon dioxide (in the Earth crust).
The oxidation number of oxygen is -2 in most of its compounds
The oxidation number of uranium can vary, depending on the compound it is in. In its most common form, uranium has an oxidation number of +6.
Transition metals are difficult to predict the most probable ionic charge using the periodic table because they can exhibit multiple oxidation states due to their partially filled d-orbitals. The transition metals are known for forming complex ions, and their variable oxidation states make predicting their charges challenging.