(a)
Interpretation: More acidic proton to be identified in following compounds.
Concept Introduction
Where,
If we know which proton is the more acidic and which proton is the less acidic we can make the determination regarding basicity.
Hybridisation: Acidity can predicted by stability of the orbitals in which negative charge present on
To explain more acidic proton in this compound
(b)
Interpretation: More acidic proton to be identified in following compounds.
Concept Introduction
Where,
If we know which proton is the more acidic and which proton is the less acidic we can make the determination regarding basicity.
Hybridisation: Acidity can predicted by stability of the orbitals in which negative charge present on
To explain more acidic proton in this compound
(c)
Interpretation: More acidic proton to be identified in following compounds.
Concept Introduction
Where,
If we know which proton is the more acidic and which proton is the less acidic we can make the determination regarding basicity.
Hybridisation: Acidity can predicted by stability of the orbitals in which negative charge present on
To explain more acidic proton in this compound
(d)
Interpretation: More acidic proton to be identified in following compounds.
Concept Introduction
Where,
If we know which proton is the more acidic and which proton is the less acidic we can make the determination regarding basicity.
Hybridisation: Acidity can predicted by stability of the orbitals in which negative charge present on
To explain more acidic proton in this compound
(e)
Interpretation: More acidic proton to be identified in following compounds.
Concept Introduction
Where,
If we know which proton is the more acidic and which proton is the less acidic we can make the determination regarding basicity.
Hybridisation: Acidity can predicted by stability of the orbitals in which negative charge present on
To explain more acidic proton in this compound
(f)
Interpretation: More acidic proton to be identified in following compounds.
Concept Introduction
Where,
If we know which proton is the more acidic and which proton is the less acidic we can make the determination regarding basicity.
Hybridisation: Acidity can predicted by stability of the orbitals in which negative charge present on
To explain more acidic proton in this compound
(g)
Interpretation: More acidic proton to be identified in following compounds.
Concept Introduction
Where,
If we know which proton is the more acidic and which proton is the less acidic we can make the determination regarding basicity.
Hybridisation: Acidity can predicted by stability of the orbitals in which negative charge present on
To explain more acidic proton in this compound
(h)
Interpretation: More acidic proton to be identified in following compounds.
Concept Introduction
Where,
If we know which proton is the more acidic and which proton is the less acidic we can make the determination regarding basicity.
Hybridisation: Acidity can predicted by stability of the orbitals in which negative charge present on
To explain more acidic proton in this compound
(i)
Interpretation: More acidic proton to be identified in following compounds.
Concept Introduction
Where,
If we know which proton is the more acidic and which proton is the less acidic we can make the determination regarding basicity.
Hybridisation: Acidity can predicted by stability of the orbitals in which negative charge present on
To explain more acidic proton in this compound
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