Represent the structure of the free radical,carbocation,and carbanion derived from methane.
(N/A) The formation of reactive intermediates from methane $(CH_4)$ occurs via bond cleavage:
$1$. Homolytic cleavage: The covalent bond breaks equally,resulting in the formation of a methyl free radical $(CH_3^{\bullet})$ and a hydrogen radical $(H^{\bullet})$.
$2$. Heterolytic cleavage: The covalent bond breaks unequally,where the shared electron pair stays with one fragment.
- If the carbon atom retains the electron pair,a methyl carbanion $(CH_3^-)$ and a proton $(H^+)$ are formed.
- If the hydrogen atom retains the electron pair,a methyl carbocation $(CH_3^+)$ and a hydride ion $(H:^-)$ are formed.
$1$. Homolytic cleavage: The covalent bond breaks equally,resulting in the formation of a methyl free radical $(CH_3^{\bullet})$ and a hydrogen radical $(H^{\bullet})$.
$2$. Heterolytic cleavage: The covalent bond breaks unequally,where the shared electron pair stays with one fragment.
- If the carbon atom retains the electron pair,a methyl carbanion $(CH_3^-)$ and a proton $(H^+)$ are formed.
- If the hydrogen atom retains the electron pair,a methyl carbocation $(CH_3^+)$ and a hydride ion $(H:^-)$ are formed.
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Similar Questions
Which free radical from the following is least stable?
For the following carbocations,the correct order of stability is:
$I: ^+CH_2-COCH_3$
$II: ^+CH_2-OCH_3$
$III: ^+CH_2-CH_3$
$I: ^+CH_2-COCH_3$
$II: ^+CH_2-OCH_3$
$III: ^+CH_2-CH_3$
Which of the following has an unstable enol form?
Difficult
View SolutionWhich of the following is the most stable carbanion?
Medium
View SolutionState True or False for the following statements:
$(i)$ Only carbocation is formed by homolytic cleavage of a bond.
$(ii)$ By heterolytic cleavage of a bond,a carbocation or carbanion is formed.
$(iii)$ The carbon of a carbanion is $sp^2$ and the carbon of a carbocation is $sp^3$.
$(iv)$ The carbon of a carbanion is $sp^3$ and the carbon of a carbocation is $sp^2$.
$(i)$ Only carbocation is formed by homolytic cleavage of a bond.
$(ii)$ By heterolytic cleavage of a bond,a carbocation or carbanion is formed.
$(iii)$ The carbon of a carbanion is $sp^2$ and the carbon of a carbocation is $sp^3$.
$(iv)$ The carbon of a carbanion is $sp^3$ and the carbon of a carbocation is $sp^2$.
Medium
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