According to Molecular orbital theory, a molecule of `H_(2)` has two electrons in

Molecular orbital theory was proposed by

According to molecular orbital theory, the total number of bonding electron pairs in O_2 , is

According to valence bond theory, water molecule has

According to valence bond theory, water molecule has

According to molecular orbital theory, atomic orbitals of nearly same energy of different atoms are combined and form molecule. In homodiatomic molecule two atomic orbitals which have wave function psi_(A) and psi_(B) are combined in two ways (psi_(A)pm psi_(B)) . They have two type of electron density, one is bonding [(psi_(A) pm psi_(B))^(2)] where e- density increase between nucleus. Another is antibonding [(psi_(A)pm psi_(B))^(2)] where e^(-) density decreases between nucleus. These molecular orbitals are filled according to Hund, Pauli, afbau principle. Existence of molecule depends on bond order. where bond order = ("Number of bonding "e^(-)"s- number of antibonding "e^(-)s)/(2) lf the molecule have unpaired electron it is paramagnetic otherwise diamagnetic Statement- 1: Removal of two e^(-) from N^(2) , magnetic behaviour does not change while addition of two electrons in O_(2) magnetic behaviour changes. Statement-2: In N_(2) removal of electron talces place from bonding orbital while addition of e^(-) in O_(2) is in antibonding orbital

The correct order of the energy of molecular orbitals in a molecules having four electrons

Use molecular orbital theory to explain why Be, molecule does not exist.

According to kinetic theory of gases, molecules of a gas behave like