The electronic configuration of a molecule can give information about bond order.
i) Write the molecular orbital configuration of `F_2` molecule.

The electronic configuration of a molecule can give information about bond order: Write the molecular orbital configuration of F_2 molecule.

The electronic configuration of a molecule can give information about bond order. ii) Find its bond order

Write the electronic configuration of an oxygen molecule and justify its magnetic nature.

The outer most subshell electronic configuration of an element is 3d^(5)4s^2 . Write the complete subshell electronic configuration of this element.

The outer most subshell electronic configuration of an element is 3d^54s^2 : Write the complete subshell electronic configuration of this element.

The outermost electronic configuration of the element A is 2s^2 2p^2 . (Symbolis not real) c. Writ: Write the complete electronic configura-tion of the element just below ‘A’ in the periodic table.

Molecular orbital theory was developed by F.Hund and R.S. Mulliken. Write the molecular electronic configuration of the N_2 molecule.

Valence Bond Theory (VBT) and Molecular Orbital Theory (MOT) are the two important theories of chemical bonding Write the molecular orbital electronic configuration of the C_2 molecule and calculate its bond order.

The formation of molecular orbitals can be described by the linear combination of atomic orbitals b) Write the electronic configuration of oxygen molecule on the basis of Molecular Orbital Theory. Justify the presence of double bond in it and account for its paramagnetic character.

Calculate the bond order of O_2 molecule.