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Oxidation state is a theoretical concept that represents the apparent charge of an atom in a compound, based on the distribution of electrons. Ionic charge, on the other hand, is the actual charge of an ion formed when an atom gains or loses electrons. While oxidation state is a more flexible concept that can vary depending on the compound, ionic charge is fixed and represents the actual charge of an ion.
Fe3O2 is ionic, as it is composed of iron (Fe) and oxygen (O) ions bound together by ionic bonds. In this compound, iron is in the +3 oxidation state and oxygen is in the -2 oxidation state, resulting in an overall neutral charge.
Radon is an inert gas. It does not want to loan our or borrow electrons, so it is reluctant to form an ion. We usually don't speak of the ionic charge of radon because it doesn't want to react chemically with anything. It could be said to have an ionic charge or oxidation state of zero. (That's neither positive or negative. It does not want to loan out or borrow electrons.)
SO3 is a covalent compound, not ionic. It is called sulfur trioxide.
Most common ionic charge of platinum are +2 and +4.
The ionic radius of germanium can vary depending on its oxidation state. However, for germanium in its most common oxidation state of +4, the ionic radius is approximately 0.53 nanometers.
The ionic radius of iron can vary depending on its oxidation state. In its most common oxidation state of +2 (Fe2+), the ionic radius is estimated to be around 78 picometers (pm), while in its +3 oxidation state (Fe3+), the ionic radius is around 65 pm.
Uranium valences: 3,4,5,6,7, possible also 2 in the unstable oxide UO.
The ionic radius of silicon can vary depending on its oxidation state. In its common +4 oxidation state, the ionic radius of silicon is approximately 0.40 nanometers when it forms tetrahedral structures.
Oxidation state: +2 Ionic charge: +2 Double hydroxided alkaline Metallic solid state Reactive with (hot) water or steam
An ionic bond.
'Oxidation number' and oxidation state are often used interchangeably. Oxidation state is a formal way of determining the degree of oxidation of an atom or ion or molecule; for ions the oxidation number is equal to the ionic charge. In non ionic compounds the most electronegative element is assumed to "own" the electrons. So in say InP which is a semiconductor and not ionic, the oxidation state of indium is +III and P is -III. Oxidation number is a convention used in complexes. Ligands are removed from the ion with all bonding electrons. Often the oxidation number and oxidation state have the same values but calculating the the oxidation number of N in ammonia, H is removed as hydride ion, H- you get the strange looking result of nitrogen with an oxidation number of +3. In contrast the oxidation states of N and H would be calculated as -III and +1