HOMO (highest occupied molecular orbital) of `N_(2)` molecule is (consider x-axis as an inter nuclear axis):

H.O.M.O (Highest Occupied Molecular Orbital ) of CO molecular is :

Which molecular orbital of O_(2) have a nodal plane which is perpendicular to internuclear axis

According to VBT the extent of overlapping depends upon types of orbitals involved in overlapping and nature of overlapping. More will be the overlapping and the bond energy will also be high. Which of the following combination of orbitals does not form covalent bond (x-axis is inter nuclear axis) :

According to VBT the extent of overlapping depends upon types of orbitals involved in overlapping and nature of overlapping. More will be the overlapping and the bond energy will also be high. Which of the following combination of orbitals does not form covalent bond (x-axis is inter nuclear axis) :

Which of the following combination is not allowed in the LCAO method for the formation of molecular orbital (consider Z-axis as the molecular axis) ? .

Which of the following combination of orbitals do / does not form bond (if x-axis is internuclear axis) ?

Use molecular orbital theory to explain why the Be_2 molecule does not exist.

Label the molecular orbitals formed by the following combinations of atomic orbitals if Z-axis is the internuclear axis. 2p_x -2p_x

Calculate expression (x+y+z) for diatomic molecules. where x=Total number of singly occupied molecular orbital (SOMO) in O_(2) . y=Total number of singly occupied molecular orbital (SOMO) in B_(2) z=Total number of singly occupied molecular orbital (SOMO) in NO .

Label the molecular orbitals formed by the following combinations of atomic orbitals if Z-axis is the internuclear axis. 1 s - 1s