Answer : % ionic character is 0.20%
Bonding between the two metals will be purely metallic.
Explanation: For the calculation of % ionic character, we use the formula
[tex]\% \text{ ionic character}= [1-e^{\frac{-(X_A-X_B)^2)}{4}}]\times(100\%)[/tex]
where [tex]X_A[/tex] & [tex]X_B[/tex] are the Pauling's electronegativities.
The table attached has the values of electronegativities, by taking the values of Al and Mn from there,
[tex]X_{Al}=1.61[/tex]
[tex]X_{Mn}=1.55[/tex]
Putting the values in the electronegativity formula, we get
[tex]\% \text{ ionic character}= [1-e^{\frac{-(1.61-1.55)^2)}{4}}]\times(100\%)[/tex]
= 0.20%
Now, there are 3 types of inter atomic bonding
1) Ionic Bonding: It refers to the chemical bond in which there is complete transfer of valence electrons between atoms
2) Covalent Bonding: It refers to the chemical bond involving the sharing of electron pairs between 2 atoms.
3) Metallic Bonding: It refers to the chemical bond in which there is an electrostatic force between the positively charged metal ions and delocalised electrons.
In [tex]Al_6Mn[/tex] compound, the % ionic character is minimal that is [tex]\sim[/tex]0.20% and there are two metal ions present, therefore this compound will have metallic bonding.
