The oxidation state of iron in two moles or atoms of elemental iron is zero. If you mean iron (II), the oxidation state is +2.
The oxidation state of Iodine (I) in the ion I- is -1. So, for 2 I- ions, the total oxidation state is -2.
-1 oxidation state
negative 1
called oxidation. In oxidation, an atom or molecule loses electrons, resulting in an increase in its oxidation state. This process can involve the transfer of electrons to another atom or molecule.
The oxidation state of calcium in calcium hydride is +2, as calcium typically forms ionic compounds with a +2 oxidation state.
Zinc is in oxidation state +2 and oxygen in oxidation state -2. Zinc Oxide itself has not net charge/oxidation state.
It has plus 7 oxidation state.It is in highest oxidation state.
The oxidation state is +1 for hydrogen and -1 for chlorine.
-2 oxidation state
K = +1 oxidation state Cl = +3 oxidation state O = -2 oxidation state
The oxidation state of Fe in FeCl3 is +3. Each Cl atom has an oxidation state of -1, and since there are three Cl atoms in FeCl3, the overall charge from the Cl atoms is -3. This makes the Fe atom's oxidation state +3 to balance the charges.
O = -2 oxidation state H = +1 oxidation state
Mg = +2 oxidation state P = +5 oxidation state O = -2 oxidation state
The oxidation number of carbon (C) depends on the compound it is in. In most organic compounds, carbon has an oxidation number of +4, +2, 0, or -4.
called oxidation. In oxidation, an atom or molecule loses electrons, resulting in an increase in its oxidation state. This process can involve the transfer of electrons to another atom or molecule.
The oxidation state of calcium in calcium hydride is +2, as calcium typically forms ionic compounds with a +2 oxidation state.
The oxidation state of calcium is +2.
2 oxidation state
The oxidation states for Na, Br, and O are +1, +5, and -2, respectively. In NaBrO3, there is 1 Na, 1 Br, and 3 O atoms, leading to a total charge of 0. Thus, the oxidation state of NaBrO3 is +5 to balance the charge.
S = +4 oxidation state O = -2 oxidation state