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Question

Define bond order. Calculate the bond order of C2, H2, and N2.

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Solution

Bond order:

  • Bond order (B.O.) is defined as one-half the difference between the number of electrons present in the bonding and the anti-bonding orbitals.
  • Bond order (B.O) = 12( Number of bonding electrons - Number of the anti-bonding electron)
  • Bond order = 12(Nb- Na)

a = Number of bonding electrons in molecular orbitals.

b = Number of antibonding electrons in molecular orbitals.

Bond order of C2:

  • Electronic configuration of Carbon (C) is 1s2 2s22p2.
  • Total number of electrons in C2 molecule is 6 + 6 =12
  • The molecular orbital electronic configuration of C2 is

σ (1s)2 σ*(1s)2 σ(2s)2 σ*(2s)2 π(2px)2 π (2py)2

  • Number of electrons in bonding orbital = 8
  • Number of electrons in anti-bonding orbital = 4
  • Therefore, bond order = 12(8- 4) = 2
  • Hence, the bond order of the C2 molecule is 2 and it will have a double bond.

Bond order of H2:

  • The electronic configuration of Hydrogen (H) is 1s1.
  • Total number of electrons in H2 is 1+1 = 2
  • The molecular orbital electronic configuration of H2 is

σ(1s)2

  • Number of electrons in bonding orbital = 2
  • Number of electrons in anti-bonding orbital = 0
  • Bond order = 12(Nb- Na)
  • Therefore, bond order = 12(2-0) =1
  • Hence, the bond order of H2 is 1

Bond order of N2:

  • Electronic configuration of Nitrogen (N) is 1s2 2s22p3.
  • Total number of electrons in N2 is 7 + 7 = 14.
  • The molecular orbital electronic configuration of N2 is

σ (1s)2 σ*(1s)2 σ(2s)2 σ*(2s)2 π(2px)2π(2py)2 σ(2pz)2

  • Number of electrons in bonding orbital = 10
  • Number of electrons in anti-bonding orbital = 4
  • Bond order = 12(Nb- Na)

Therefore, bond order = 12(10 - 4)=3

Hence, the bond order of N2 is 3.


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