Calculate the magnetic moment of a divalent ion in aqueous medium if its atomic number is 25
Calculate the magnetic moment of a divalent ion in aqueous medium if its atomic number is 25
√27
√37
√35
√25
The Correct Option is C
Solution and Explanation
To calculate the magnetic moment of a divalent ion with atomic number 25 (manganese, Mn), we follow these steps:
Step 1: Determine the electronic configuration of manganese. The atomic number is 25, so the electronic configuration is:
Mn: [Ar] 3d5 4s2
Step 2: Account for the divalent state (Mn2+). The loss of two electrons occurs from the 4s and 3d orbitals:
Mn2+: [Ar] 3d5
Step 3: Calculate the number of unpaired electrons. In the 3d5 configuration, all five electrons are unpaired.
Step 4: Use the formula for magnetic moment (μ):
μ = √(n(n+2))
where n is the number of unpaired electrons.
Step 5: Substitute the value of n (5 in this case) into the formula:
μ = √(5(5+2)) = √35
Therefore, the magnetic moment of the Mn2+ ion is √35.
The correct answer is √35.
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Concepts Used:
Coordination Compounds
A coordination compound holds a central metal atom or ion surrounded by various oppositely charged ions or neutral molecules. These molecules or ions are re-bonded to the metal atom or ion by a coordinate bond.
Coordination entity:
A coordination entity composes of a central metal atom or ion bonded to a fixed number of ions or molecules.
Ligands:
A molecule, ion, or group which is bonded to the metal atom or ion in a complex or coordination compound by a coordinate bond is commonly called a ligand. It may be either neutral, positively, or negatively charged.