Use the molecular orbital energy level diagram to show that `N_(2)` would be expected to have a triple bond. `F_(2)`, a single bond and `Ne_(2)` , no bond.

Write the molecular orbital configuration of N_2. Calculate the bond order and predict its magnetic behaviour.

Drawn the molecular orbital diagram and write the bond order, magnetic property of N_(2) molecule and N_(2)^(o+) ion ?

Draw the energy level diagram of H_(2)^(+) ion and discuss its stability in terms of bond order.

The bond order in N_(2) ^(-) is

Write the molecular orbital configuration of O_(2)^(+) Calculate its bond order and predict its magnetic behaviour.

Write the molecular orbital electron distribution of oxygen (O_(2)) Specify its bond order and magnetic property

Draw diagrams showing the formation of a double bond and a triple bond between C atoms in C_2 H_4 and C_2 H_2 molecules?

Which of the following options represents the correct bond order? Thinking process To calcualte bond order, write the molecular orbital configuration of particular species and afterwards using the formula. Bond order = 1/2 [Number of bonding (N_(6)) - Number of anti-bonding electrons (N_(a)) ]

Draw the molecular orbital diagram of N_2 molecule and write its molecular orbital configuration. Calculate the bond order and discuss the extra stability and diamagnetic nature of the molecule.

Select the molecules with single bond, double bond and triple bond in H_2 , O_2 , and N_2