The typical reaction of benzene and othe...

The typical reaction of benzene and other aromatic compounds are electrophilic substitution. Presence of electron donating group activates the ring towards electrophilic substitution, while presence of electron withdrawing group deactivates the ring towards electrophilic substituion but at the same time activates the ring towards nucleophilic subsituion. Some groups are predominantly meta-directing and all of these are deactivating. Except halogen, most of the `o-`and`p-`directing groups are activating groups.
`underset(Delta)overset(C_(2)H_(5)Cl.AlCl_(3))rarr(A)` major.
`A` is trisubstituted benzene. The structure of `A` is :

A

B

C

D

Text Solution

Verified by Experts

The correct Answer is:

A

Promotional Banner

Promotional Banner

Topper's Solved these Questions

ALKENE, ALKANE & ALKYNE
ALLEN|Exercise EXERCISE-4(A)|10 Videos
ALKENE, ALKANE & ALKYNE
ALLEN|Exercise EXERCISE-4(B)|10 Videos
ALKENE, ALKANE & ALKYNE
ALLEN|Exercise EXERCISE-1|119 Videos
AIIMS 2019
ALLEN|Exercise CHEMISTRY|35 Videos
ALKYL AND ARYL HALIDE
ALLEN|Exercise EXERCISE-05 (B)|37 Videos

Similar Questions

Explore conceptually related problems

Which of the following group(s) activate the benzene ring towards electrophilic substitution reaction.

Which of the following froups groups deactivates the benzene ring towards electrophilic substitution ?

A group which deactivates the benzene ring towards electrophilic substitution but directs the incoming group towards o- and p- position is

Which of the following substituents deactivates the benzene ring towards electrophilic substitution?

All the common m-directig group make the benzene ring towards electrophilic substitution reactions

Assertion : Aromatic aldehydes and ketones undergo electrophilic substitution reaction at metaposition. Reason : Carbonyl group activates the ring towards electrophilic substitution reactions.

The presence of which one of the following group on benzene nucleus activate it towards electrophilic substitution :

ALLEN-ALKENE, ALKANE & ALKYNE -EXERCISE-3

Statement-I : Nitrobenzene does not undergo Friede1-Craft's reaction. ...
Text Solution
|
Statement-I : The rate of nitration of benzene is less than hexa deute...
Text Solution
|
The typical reaction of benzene and other aromatic compounds are elect...
Text Solution
|
The typical reaction of benzene and other aromatic compounds are elect...
Text Solution
|
The typical reaction of benzene and other aromatic compounds are elect...
Text Solution
|
It is not always easy to predict the position of attack on multiply su...
Text Solution
|
It is not always easy to predict the position of attack on multiply su...
Text Solution
|
It is not always easy to predict the position of attack on multiply su...
Text Solution
|
A third group is least likely to enter between two groups in the meta ...
Text Solution
|
A third group is least likely to enter between two groups in the meta ...
Text Solution
|
A third group is least likely to enter between two groups in the meta ...
Text Solution
|
A third group is least likely to enter between two groups in the meta ...
Text Solution
|
Statement-I : Solubility on n-alcohols in water decreases with increas...
Text Solution
|
Statement I: p-Nitrophenol is a stronger acid than o-nitrophenol. St...
Text Solution
|
Statement-I: Phenol is more reactive than benzene towards electrophili...
Text Solution
|
Statement-I: Tert-Butoxide is a stronger base than OH^(-) or C(2)H(5)O...
Text Solution
|
Statement-I With Br(2)//H(2)O phenol give 2,4,6- tribromophenol but wi...
Text Solution
|
Phenols are converted into their salts by aqueous NaOH but not by aque...
Text Solution
|
Phenols are converted into their salts by aqueous NaOH but not by aque...
Text Solution
|
Phenols are converted into their salts by aqueous NaOH but not by aque...
Text Solution
|