The ether that undergoes electrophilic substitution reaction is. A)CH3...
Only alkyl 1 and ary 1 ethers eg C6H50CH3 can only cause that undergoes electrophilic substitution reaction
The ether that undergoes electrophilic substitution reaction is. A)CH3...
**The Ether that Undergoes Electrophilic Substitution Reaction**
To determine which ether undergoes electrophilic substitution reactions, let's analyze the options given:
A) CH3O-C2H5 (methyl ethyl ether)
B) C2H5O-C2H5 (diethyl ether)
C) C6H5O-CH3 (methyl phenyl ether)
D) CH3O-CH3 (dimethyl ether)
Note: In electrophilic substitution reactions, a hydrogen atom of an aromatic compound is replaced by an electrophile.
**Analyzing the Options**
A) CH3O-C2H5 (methyl ethyl ether): This compound does not have an aromatic ring, so it cannot undergo electrophilic substitution reactions.
B) C2H5O-C2H5 (diethyl ether): Similar to option A, this compound does not have an aromatic ring and cannot undergo electrophilic substitution reactions.
C) C6H5O-CH3 (methyl phenyl ether): This compound contains a phenyl (C6H5) group, which is an aromatic ring. Therefore, it has the potential to undergo electrophilic substitution reactions.
D) CH3O-CH3 (dimethyl ether): Similar to option A and B, this compound does not have an aromatic ring and cannot undergo electrophilic substitution reactions.
**Conclusion**
The ether that can undergo electrophilic substitution reactions is option C) C6H5O-CH3 (methyl phenyl ether). It contains an aromatic ring (phenyl group) that can undergo substitution reactions.
Please note that this explanation is based on the given options and the concept of electrophilic substitution reactions. There may be other ethers that can also undergo electrophilic substitution reactions depending on their structure and reactivity.
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