(a)
Interpretation:
To identify the hybridization state of Ca, Cb and Cc in the given compound. To determine the bond angle of H-Ca-Cb and Ca-Cb-Cc and to describe the relative orientation of the p orbitals on Ca and Cc
Concept introduction:
The atomic orbitals mix together to form a hybrid orbital which is suitable for forming bonds between the atoms to form a compound. This mixing of hybrid orbitals is known as hybridization. The hybridization determines the geometry of the particular atom in the compound. Shortly to say
trigonal pyramidal(if one lone pair of electron is present)
bent geometry (if two lone pair of electrons are present)
To identify: To identify the hybridization state of Ca, Cb and Cc.
(b)
Interpretation:
To identify the hybridization state of Ca, Cb and Cc in the given compound. To determine the bond angle of H-Ca-Cb and Ca-Cb-Cc and to describe the relative orientation of the p orbitals on Ca and Cc
Concept introduction:
The atomic orbitals mix together to form a hybrid orbital which is suitable for forming bonds between the atoms to form a compound. This mixing of hybrid orbitals is known as hybridization. The hybridization determines the geometry of the particular atom in the compound. Shortly to say
trigonal pyramidal(if one lone pair of electron is present)
bent geometry (if two lone pair of electrons are present)
(c)
Interpretation:
To identify the hybridization state of Ca, Cb and Cc in the given compound. To determine the bond angle of H-Ca-Cb and Ca-Cb-Cc and to describe the relative orientation of the p orbitals on Ca and Cc
Concept introduction:
The atomic orbitals mix together to form a hybrid orbital which is suitable for forming bonds between the atoms to form a compound. This mixing of hybrid orbitals is known as hybridization. The hybridization determines the geometry of the particular atom in the compound. Shortly to say
trigonal pyramidal(if one lone pair of electron is present)
bent geometry (if two lone pair of electrons are present)
(d)
Interpretation:
To identify the hybridization state of Ca, Cb and Cc in the given compound. To determine the bond angle of H-Ca-Cb and Ca-Cb-Cc and to describe the relative orientation of the p orbitals on Ca and Cc
Concept introduction:
The atomic orbitals mix together to form a hybrid orbital which is suitable for forming bonds between the atoms to form a compound. This mixing of hybrid orbitals is known as hybridization. The hybridization determines the geometry of the particular atom in the compound. Shortly to say
trigonal pyramidal(if one lone pair of electron is present)
bent geometry (if two lone pair of electrons are present)

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Chapter 1 Solutions
ORGANIC CHEMISTRY 1 TERM ACCESS
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