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

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L.C.A.O. Principle is involved in the formation of the molecular orbitals according to molecular orbital theory. The energy of the bonding molecular orbital is less than that of the combining atomic orbitals while that of the antibonding molecular orbitals while that of the order (B.O.)=1/2(N_(b)-N_(a)) helps in predicting (i) formation of molecules/molecular ions, bond dissociation energy, stability and bond length. Only the molecules or ions with positive B.O. can be formed. These will be diamagnetic if all molecular orbitals are dilled and paramagnetic if one of more are half filled. The atomic orbitals at the time of overlap must have the same symmetry as well. The bond order (B.O.) in B_(2) molecule is:

L.C.A.O. Principle is involved in the formation of the molecular orbitals according to molecular orbital theory. The energy of the bonding molecular orbital is less than that of the combining atomic orbitals while that of the antibonding molecular orbitals while that of the order (B.O.)=1/2(N_(b)-N_(a)) helps in predicting (i) formation of molecules/molecular ions, bond dissociation energy, stability and bond length. Only the molecules or ions with positive B.O. can be formed. These will be diamagnetic if all molecular orbitals are dilled and paramagnetic if one of more are half filled. The atomic orbitals at the time of overlap must have the same symmetry as well. In the homonuclear molecule which of the following sets of M.O. orbitals are degenerate ?

L.C.A.O. Principle is involved in the formation of the molecular orbitals according to molecular orbital theory. The energy of the bonding molecular orbital is less than that of the combining atomic orbitals while that of the antibonding molecular orbitals while that of the order (B.O.)=1/2(N_(b)-N_(a)) helps in predicting formation of molecules/molecular ions, bond dissociation energy, stability and bond length. Only the molecules or ions with positive B.O. can be formed. These will be diamagnetic if all molecular orbitals are dilled and paramagnetic if one of more are half filled. The atomic orbitals at the time of overlap must have the same symmetry as well. In the formation of N_(2)^(+) from N_(2), the electron is removed from a

ICSE-CHEMICAL BONDING AND MOLECULAR STRUCTURE-NCERT TEXT-BOOK EXERCISES ( WITH HINTS AND SOLUTIONS)
  1. Is there any change in the hybridisation of B and N atoms as a result ...

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  2. Draw diagrams showing the formation of a double bond and a triple bond...

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  3. What is the total number of sigma and pi bonds in the following molecu...

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  4. What is the total number of sigma and pi bonds in the following molecu...

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  5. Considering x-axis as the internuclear axis which out of the following...

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  6. Which hybrid orbitals are used by carbon atoms in the following molecu...

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  7. Which hybrid orbitals are used by carbon atoms in the following molecu...

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  8. Which hybrid orbitals are used by carbon atoms in the following molecu...

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  9. Which hybrid orbitals are used by carbon atoms in the following molecu...

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  10. Which hybrid orbitals are used by carbon atoms in the following molecu...

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  11. What do you understand by bond pairs and lone pairs of electrons? Illu...

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  12. Give two differences between a sigma bond and a pi bond.""^(**"**)

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  13. Discuss the formation of H2 molecule on the basis of Valence-bond theo...

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  14. Write the important conditions required for the linear combination of ...

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  15. Use molecular orbital theory to explain why the Be2 molecule does not ...

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  16. Compare the relative stability of the following species and indicate t...

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  17. Write the significance of plus and minus sign shown in representing th...

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  18. Describe the hybridisation in case of PCI5. Why are the axial bonds lo...

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  19. Define hydrogen bond. Is it weaker or stronger than the van der Waals'...

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  20. What is meant by the term bond order? Calculate the bond order of N2, ...

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