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Oxidation number of silicon?
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.
What is the oxidation number of Silicon?
0 in the elemental form, +4 (most common) in its compounds.
What is the most probable formula for a compound of silicon and hydrogen?
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.
What is the oxidation number for thorium?
+4 is the most common and the most stable oxidation number
Most common oxidation number of combined oxygen?
the most common oxidation number for oxygen is -2.
What is the oxidation number for oxygen in most compounds?
The oxidation number for oxygen in most compounds is -2.
What is the most common oxidation number of magneniusm?
The most common oxidation number of magnesium is +2.
What is the oxidation number of Chlorine?
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.
What is oxidation number oxygen?
The oxidation number of oxygen is -2 in most of its compounds
What are the 2 most common compound on earth?
Very probable these compounds are water and silicon dioxide (in the Earth crust).
What is the oxidation number of uranium?
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.
For which atom is it difficult to predict the most probable ionic charge using the periodic table?
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.
