To convert molarity to normality for iodine, you need to consider the valency of iodine in a reaction. Since iodine has a valency of 1 in most reactions, there is no change in converting molarity to normality for iodine. Therefore, 0.025M iodine remains the same when expressed in normality.
Iodine typically carries a valency of -1, +1, +3, +5, or +7, depending on the compound it is a part of.
Bromine is a non-metal and a part of the halogen family. Other members of this family are Chlorine, Fluorine, Iodine and Astatine. So, like other members of this family, Bromine has a valency of 1.
The valency of sulfur is typically 2, 4, or 6, depending on the compound it forms.
-1 valency
To convert molarity to normality for iodine, you need to consider the valency of iodine in a reaction. Since iodine has a valency of 1 in most reactions, there is no change in converting molarity to normality for iodine. Therefore, 0.025M iodine remains the same when expressed in normality.
Iodine typically carries a valency of -1, +1, +3, +5, or +7, depending on the compound it is a part of.
Bromine is a non-metal and a part of the halogen family. Other members of this family are Chlorine, Fluorine, Iodine and Astatine. So, like other members of this family, Bromine has a valency of 1.
No, it is due to them having the same number of valency electrons.
The valency of lithium is 1. It has one valence electron in its outer shell.
Its valency is 0.
the valency is 4
the valency for nitrite is 5
magnesium has a valency of 2
The valency of ferricyanide is -3. It contains one iron (III) cation with a valency of +3 and one cyanide anion with a valency of -1.
The valency of silver is typically +1. However, silver can also exhibit a valency of +2 in certain compounds.
The valency of sulfur is typically 2, 4, or 6, depending on the compound it forms.