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In molecular orbital theory, bond order is defined as half of the difference between the number of bonding and antibonding electrons. Bond order = [(Number of electrons in bonding molecules) - (Number of electrons in antibonding molecules)]/2. Know that the higher the bond order, the more stable the molecule.
Step 1: Determine the total number of valence electrons. Step 2: Write the skeleton structure of the molecule. Step 3: Use two valence electrons to form each bond in the skeleton structure. Step 4: Try to satisfy the octets of the atoms by distributing the remaining valence electrons as nonbonding electrons.
If there are more than two atoms in the molecule, follow these steps to determine the bond order: Draw the Lewis structure. Count the total number of bonds. Count the number of bond groups between individual atoms. Divide the number of bonds between atoms by the total number of bond groups in the molecule.
You can follow these steps: Just count the total number of electrons. Add number of Negative Charges and Subtract number of Positive Charges on molecule. Find the difference of total number of electrons from 14. Call it 'n'. Bond order = 3 ? 0.5n.
What is Bond order? The bond order shows the number of chemical bonds present between a pair of atoms. For instance, the bond order of diatomic nitrogen N?N is 3 and bond order between the carbon atoms in H-H?C-H is also three.