In an electrophilic aromatic substitution reaction, which group is both ortho, para directing and ring deactivating?...
In an electrophilic aromatic substitution reaction, which group is both ortho, para directing and ring deactivating? of Select one: O -NH2 O-SO3H O-1 0 -CN O-OCH3
In an electrophilic aromatic substitution reaction, which group is both ortho, para directing and ring ?deactivating اختر أحد الخيارات CI- CO2H- NO - O NH2- OH-
An NH2 substituent in an aromatic ring is: Select one: a. activating ortho-, meta- and para-directing b. deactivating and ortho- and para-directing c. deactivating and meta-directing d. activating and meta-directing e. activating and ortho- and para-directing
Sort the following molecules by whether the substituent group is ortho/para or meta directing for electrophilic aromatic substitution. Sort the following molecules by whether the substituent group is ortho/para or meta directing for electrophilic aromatic substitution.
Which of the following sets of substituents are all ortho/para directing in electrophilic aromatic substitution reactions? O CN, NO2, COCH3 O CI, OH, CH3 OBr, OH, COCH3 OCI, CH3. CN
Choose the incorrect statement for the electrophilic aromatic substitution. a) Bromo group deactivating b) Aniline is more reactive than benzene b) Nitrobenzene is meta-directing d) Acetophenone is para-directing e) Biphenyl undergoes electrophilic aromatic substitution.
Consider the -N=O group and describe its directing properties in electrophilic aromatic substitution. The -N=O is a ortho,para/meta director because of: -induction away from the ring -resonance into the ring -induction towards the ring -resonance away from the ring
Sort the following molecules by whether the substituent group is ortho/para or meta directing for electrophilic aromatic substitution
Map. Sort the following molecules by whether the substituent group is ortho/para or meta directing for electrophilic aromatic substitution. Ortho Para Directing Meta Directing Previous Check Answer Next Exit
Please help... Need a detail Mechanism of this reaction. Thanks... Electrophilic aromatic substitution describes the reaction where a hydrogen from a benzene ring is replaced by an electrophile. Halogenation, nitration, sulfonation, alkylation and acylation are all possible using this type of reaction. The electrophile attacks the pi electrons of the aromatic ring, yielding a benzenonium ion. The substituted aromatic product is obtained when a proton is lost, restoring the aromatic system. If there is a substituent on the aromatic ring...