In electron sea model, all the electrons of the contributing atoms are delocalized in the array of metal atoms and are involved in metallic bonding. 2) In molecular orbital theory, the no. of molecular orbitals formed is twice the no. of atomic orbitals used in the formation of the molecular orbitals. 3) Resonance structures of the same compound can have different arrangement of atoms
In electron sea model, all the electrons of the contributing atoms are delocalized in the array of metal atoms and are involved in metallic bonding. 2) In molecular orbital theory, the no. of molecular orbitals formed is twice the no. of atomic orbitals used in the formation of the molecular orbitals. 3) Resonance structures of the same compound can have different arrangement of atoms
Organic Chemistry
8th Edition
ISBN:9781305580350
Author:William H. Brown, Brent L. Iverson, Eric Anslyn, Christopher S. Foote
Publisher:William H. Brown, Brent L. Iverson, Eric Anslyn, Christopher S. Foote
Chapter1: Covalent Bonding And Shapes Of Molecules
Section1.9: Molecular Orbitals For Delocalized Systems
Problem 1.19P: Draw three contributing structures of the following compound (called guanidine) and state the...
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1) In electron sea model, all the electrons of the contributing atoms are delocalized in the array of metal atoms and are involved in metallic bonding.
2) In molecular orbital theory, the no. of molecular orbitals formed is twice the no. of atomic orbitals used in the formation of the molecular orbitals.
3) Resonance structures of the same compound can have different arrangement of atoms.
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