Fe^(2+) its name is the iron cation in oxidation state '2' .
When combined, with say a sulphate anion it would be named as 'Ferrous sulphate'.
NB Ferric sulphate is iron cation in oxidation state '3'. ( Fe2(SO4)3 ).
Note the difference in spelling for different oxidation states.
Iron(II)+
A. Fe^2+ ==> Fe^3+ + e- is an oxidation reactionB. Fe^3+ +e- ==> Fe^2+ is a reduction reactionC. Fe(s) ==> Fe(l) is neither an oxidation nor a reduction reaction. It is a phase change.D. Fe + 2e- ==> Fe^2+ is not a possible reaction.
Fe + 2 CuNO3 = Fe(NO3)2 + 2 Cu.
Since Fe is a transition metal, the equation varies. If Fe has the oxidation state of +2: Fe + Cl2 -> FeCl2 If Fe has the oxidation state of +3: 2 Fe + 3 Cl2 -> 2 FeCl3
2 Fe2O3 + 12 HNO3 -> 4 Fe(NO3)3 + 6 H2O
ferrous perchlorate
fe+3=..............* .9 =fe+2
A. Fe^2+ ==> Fe^3+ + e- is an oxidation reactionB. Fe^3+ +e- ==> Fe^2+ is a reduction reactionC. Fe(s) ==> Fe(l) is neither an oxidation nor a reduction reaction. It is a phase change.D. Fe + 2e- ==> Fe^2+ is not a possible reaction.
Fe 2+ is Ferrous Fe 3+ is Ferric
Fe + 2 CuNO3 = Fe(NO3)2 + 2 Cu.
Fe 2plus is larger
2 Fe + 3 CuO -> Fe2O3 + 3 Cu
Since Fe is a transition metal, the equation varies. If Fe has the oxidation state of +2: Fe + Cl2 -> FeCl2 If Fe has the oxidation state of +3: 2 Fe + 3 Cl2 -> 2 FeCl3
The chemical name for Fe(NO3)2 is iron(II) nitrate.
The chemical name for Fe(NO3)2 is iron(II) nitrate.
Iron (Fe)
This is a balanced chemical equation.
If Fe becomes Fe^2+ it has lost 2 electrons, and so the Fe has been OXIDIZED.