The overlapping of 1s atomic orbital of H and 2p atomic orbital overlap of F to form bonding and anti-bonding MO’s to form HF molecule needs to be explained and the orbitals needs to be labeled as s and p MO’s. Concept Introduction: Molecular orbital theory explained the bonding, magnetic and spectral properties of molecule. It is based on the formation of molecular orbitals by the combination of atomic orbitals. On the basis of energy and stability these molecular orbitals can be further classified in three types: Bonding molecular orbitals (BMO): They have lesser energy than atomic orbital therefore more stable compare to atomic orbital. Antibonding molecular orbitals (ABMO): They have higher energy than atomic orbital therefore less stable compare to atomic orbital. Non-bonding molecular orbitals (NBMO): They have same energy as atomic orbital. Molecular orbital diagrams represents the distribution of electrons in different molecular orbitals in increasing order of their energy. Hence lower energy molecular orbitals occupy first then only electron moves in higher energy orbitals.
The overlapping of 1s atomic orbital of H and 2p atomic orbital overlap of F to form bonding and anti-bonding MO’s to form HF molecule needs to be explained and the orbitals needs to be labeled as s and p MO’s. Concept Introduction: Molecular orbital theory explained the bonding, magnetic and spectral properties of molecule. It is based on the formation of molecular orbitals by the combination of atomic orbitals. On the basis of energy and stability these molecular orbitals can be further classified in three types: Bonding molecular orbitals (BMO): They have lesser energy than atomic orbital therefore more stable compare to atomic orbital. Antibonding molecular orbitals (ABMO): They have higher energy than atomic orbital therefore less stable compare to atomic orbital. Non-bonding molecular orbitals (NBMO): They have same energy as atomic orbital. Molecular orbital diagrams represents the distribution of electrons in different molecular orbitals in increasing order of their energy. Hence lower energy molecular orbitals occupy first then only electron moves in higher energy orbitals.
Solution Summary: The author explains that the overlapping of 1s atomic orbital of H and 2p atomial overlap of F to form bonding and anti-bonding MO's is explained.
Interpretation: The overlapping of 1s atomic orbital of H and 2p atomic orbital overlap of F to form bonding and anti-bonding MO’s to form HF molecule needs to be explained and the orbitals needs to be labeled as s and p MO’s.
Concept Introduction: Molecular orbital theory explained the bonding, magnetic and spectral properties of molecule. It is based on the formation of molecular orbitals by the combination of atomic orbitals. On the basis of energy and stability these molecular orbitals can be further classified in three types:
Bonding molecular orbitals (BMO): They have lesser energy than atomic orbital therefore more stable compare to atomic orbital.
Antibonding molecular orbitals (ABMO): They have higher energy than atomic orbital therefore less stable compare to atomic orbital.
Non-bonding molecular orbitals (NBMO): They have same energy as atomic orbital.
Molecular orbital diagrams represents the distribution of electrons in different molecular orbitals in increasing order of their energy. Hence lower energy molecular orbitals occupy first then only electron moves in higher energy orbitals.
Explain the inductive effect (+I and -I) in benzene derivatives.
The inductive effect (+I and -I) in benzene derivatives, does it guide ortho, meta or para?
19.57 Using one of the reactions in this chapter, give the correct starting material (A-L)
needed to produce each structure (a-f). Name the type of reaction used.
(b)
ہ مرد
(d)
HO
(c)
དང་ ་་ཡིན་ད་དང་
(f)
HO
Br
B
D
of
oli
H
J
Br
K
C
人
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Quantum Molecular Orbital Theory (PChem Lecture: LCAO and gerade ungerade orbitals); Author: Prof Melko;https://www.youtube.com/watch?v=l59CGEstSGU;License: Standard YouTube License, CC-BY