Reactivity 3.4.13—Electrophilic substitution reactions include the reactions of benzene with electrophiles. Describe and explain the mechanism of the reaction between benzene and a charged electrophile, E+.
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[N/A]Directly related questions
- EXM.1A.HL.TZ0.6: Which of the following describes the role of benzene in the reaction? A. an electrophile B. a...
- EXM.1A.HL.TZ0.6: Which of the following describes the role of benzene in the reaction? A. an electrophile B. a...
- EXM.1A.HL.TZ0.7: Which of the following can act as a nucleophile? I. Benzene II. Water III. Bromine A. I and...
- EXM.1A.HL.TZ0.7: Which of the following can act as a nucleophile? I. Benzene II. Water III. Bromine A. I and...
- EXM.1A.HL.TZ0.8: Which is correct when benzene undergoes electrophilic substitution by chlorine, Cl2, in presence...
- EXM.1A.HL.TZ0.8: Which is correct when benzene undergoes electrophilic substitution by chlorine, Cl2, in presence...
- EXM.2.HL.TZ0.4: Benzene, C6H6, can undergo electrophilic substitution reactions that proceeds slowly. Suggest why...
- EXM.2.HL.TZ0.4: Benzene, C6H6, can undergo electrophilic substitution reactions that proceeds slowly. Suggest why...
- EXM.2.HL.TZ0.5: State the name of the products of the reaction between benzene, C6H6 and bromine, Br2 in presence...
- EXM.2.HL.TZ0.5: State the name of the products of the reaction between benzene, C6H6 and bromine, Br2 in presence...
- EXM.2.HL.TZ0.6: Bromobenzene, C6H5Br, can be formed by the reaction of benzene, C6H6 and bromine, Br2 in...
- EXM.2.HL.TZ0.6: Bromobenzene, C6H5Br, can be formed by the reaction of benzene, C6H6 and bromine, Br2 in...
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19M.2.HL.TZ1.1c(i):
Write the equation for the production of the active nitrating agent from concentrated sulfuric and nitric acids.
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19M.2.HL.TZ1.1c(i):
Write the equation for the production of the active nitrating agent from concentrated sulfuric and nitric acids.
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19M.2.HL.TZ1.c(i):
Write the equation for the production of the active nitrating agent from concentrated sulfuric and nitric acids.
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19M.2.HL.TZ1.1c(i):
Write the equation for the production of the active nitrating agent from concentrated sulfuric and nitric acids.
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19M.2.HL.TZ1.1c(i):
Write the equation for the production of the active nitrating agent from concentrated sulfuric and nitric acids.
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19M.2.HL.TZ1.c(i):
Write the equation for the production of the active nitrating agent from concentrated sulfuric and nitric acids.
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19M.2.HL.TZ1.1c(ii):
Explain the mechanism for the nitration of benzene, using curly arrows to indicate the movement of electron pairs.
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19M.2.HL.TZ1.1c(ii):
Explain the mechanism for the nitration of benzene, using curly arrows to indicate the movement of electron pairs.
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19M.2.HL.TZ1.c(ii):
Explain the mechanism for the nitration of benzene, using curly arrows to indicate the movement of electron pairs.
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19M.2.HL.TZ1.1c(ii):
Explain the mechanism for the nitration of benzene, using curly arrows to indicate the movement of electron pairs.
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19M.2.HL.TZ1.1c(ii):
Explain the mechanism for the nitration of benzene, using curly arrows to indicate the movement of electron pairs.
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19M.2.HL.TZ1.c(ii):
Explain the mechanism for the nitration of benzene, using curly arrows to indicate the movement of electron pairs.
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19M.2.HL.TZ1.1d(ii):
1,4-dimethylbenzene reacts as a substituted alkane. Draw the structures of the two products of the overall reaction when one molecule of bromine reacts with one molecule of 1,4-dimethylbenzene.
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19M.2.HL.TZ1.1d(ii):
1,4-dimethylbenzene reacts as a substituted alkane. Draw the structures of the two products of the overall reaction when one molecule of bromine reacts with one molecule of 1,4-dimethylbenzene.
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19M.2.HL.TZ1.d(ii):
1,4-dimethylbenzene reacts as a substituted alkane. Draw the structures of the two products of the overall reaction when one molecule of bromine reacts with one molecule of 1,4-dimethylbenzene.
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19M.2.HL.TZ1.1d(ii):
1,4-dimethylbenzene reacts as a substituted alkane. Draw the structures of the two products of the overall reaction when one molecule of bromine reacts with one molecule of 1,4-dimethylbenzene.
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19M.2.HL.TZ1.1d(ii):
1,4-dimethylbenzene reacts as a substituted alkane. Draw the structures of the two products of the overall reaction when one molecule of bromine reacts with one molecule of 1,4-dimethylbenzene.
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19M.2.HL.TZ1.d(ii):
1,4-dimethylbenzene reacts as a substituted alkane. Draw the structures of the two products of the overall reaction when one molecule of bromine reacts with one molecule of 1,4-dimethylbenzene.
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19M.2.HL.TZ2.6c:
The benzene ring of phenylethene reacts with the nitronium ion, NO2+, and the C=C double bond reacts with hydrogen bromide, HBr.
Compare and contrast these two reactions in terms of their reaction mechanisms.
Similarity:
Difference:
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19M.2.HL.TZ2.6c:
The benzene ring of phenylethene reacts with the nitronium ion, NO2+, and the C=C double bond reacts with hydrogen bromide, HBr.
Compare and contrast these two reactions in terms of their reaction mechanisms.
Similarity:
Difference:
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19M.2.HL.TZ2.c:
The benzene ring of phenylethene reacts with the nitronium ion, NO2+, and the C=C double bond reacts with hydrogen bromide, HBr.
Compare and contrast these two reactions in terms of their reaction mechanisms.
Similarity:
Difference:
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19M.2.HL.TZ2.6c:
The benzene ring of phenylethene reacts with the nitronium ion, NO2+, and the C=C double bond reacts with hydrogen bromide, HBr.
Compare and contrast these two reactions in terms of their reaction mechanisms.
Similarity:
Difference:
-
19M.2.HL.TZ2.6c:
The benzene ring of phenylethene reacts with the nitronium ion, NO2+, and the C=C double bond reacts with hydrogen bromide, HBr.
Compare and contrast these two reactions in terms of their reaction mechanisms.
Similarity:
Difference:
-
19M.2.HL.TZ2.c:
The benzene ring of phenylethene reacts with the nitronium ion, NO2+, and the C=C double bond reacts with hydrogen bromide, HBr.
Compare and contrast these two reactions in terms of their reaction mechanisms.
Similarity:
Difference:
-
19M.2.HL.TZ1.1c(ii):
1,4-dimethylbenzene reacts as a substituted alkane. Draw the structures of the two products of the overall reaction when one molecule of bromine reacts with one molecule of 1,4-dimethylbenzene.
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19M.2.HL.TZ1.1c(ii):
1,4-dimethylbenzene reacts as a substituted alkane. Draw the structures of the two products of the overall reaction when one molecule of bromine reacts with one molecule of 1,4-dimethylbenzene.
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19M.2.HL.TZ1.c(ii):
1,4-dimethylbenzene reacts as a substituted alkane. Draw the structures of the two products of the overall reaction when one molecule of bromine reacts with one molecule of 1,4-dimethylbenzene.
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19M.2.HL.TZ1.1c(ii):
1,4-dimethylbenzene reacts as a substituted alkane. Draw the structures of the two products of the overall reaction when one molecule of bromine reacts with one molecule of 1,4-dimethylbenzene.
-
19M.2.HL.TZ1.1c(ii):
1,4-dimethylbenzene reacts as a substituted alkane. Draw the structures of the two products of the overall reaction when one molecule of bromine reacts with one molecule of 1,4-dimethylbenzene.
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19M.2.HL.TZ1.c(ii):
1,4-dimethylbenzene reacts as a substituted alkane. Draw the structures of the two products of the overall reaction when one molecule of bromine reacts with one molecule of 1,4-dimethylbenzene.
- 19N.1A.SL.TZ0.27: Which will react with a halogen by an electrophilic substitution mechanism?
- 19N.1A.SL.TZ0.27: Which will react with a halogen by an electrophilic substitution mechanism?
- 19N.1A.SL.TZ0.27: Which will react with a halogen by an electrophilic substitution mechanism?
- 19N.1A.SL.TZ0.27: Which will react with a halogen by an electrophilic substitution mechanism?
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20N.1A.HL.TZ0.35:
Which is the electrophile in the nitration of benzene?
A.
B.
C.
D.
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20N.1A.HL.TZ0.35:
Which is the electrophile in the nitration of benzene?
A.
B.
C.
D.
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20N.1A.HL.TZ0.35:
Which is the electrophile in the nitration of benzene?
A.
B.
C.
D.
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20N.1A.HL.TZ0.35:
Which is the electrophile in the nitration of benzene?
A.
B.
C.
D.
- 20N.1A.HL.TZ0.27: Which mechanism does benzene most readily undergo? A. Nucleophilic substitution B. ...
- 20N.1A.HL.TZ0.27: Which mechanism does benzene most readily undergo? A. Nucleophilic substitution B. ...
- 20N.1A.HL.TZ0.27: Which mechanism does benzene most readily undergo? A. Nucleophilic substitution B. ...
- 20N.1A.HL.TZ0.27: Which mechanism does benzene most readily undergo? A. Nucleophilic substitution B. ...
- 21M.1A.HL.TZ1.36: What is the product of the reaction of benzene with a mixture of concentrated nitric and sulfuric...
- 21M.1A.HL.TZ1.36: What is the product of the reaction of benzene with a mixture of concentrated nitric and sulfuric...
- 21M.1A.HL.TZ1.36: What is the product of the reaction of benzene with a mixture of concentrated nitric and sulfuric...
- 21M.1A.HL.TZ1.36: What is the product of the reaction of benzene with a mixture of concentrated nitric and sulfuric...
- 22M.1A.HL.TZ1.35: What are the type of reaction and role of the nitronium ion, NO2+, in the following...
- 22M.1A.HL.TZ1.35: What are the type of reaction and role of the nitronium ion, NO2+, in the following...
- 22M.1A.HL.TZ1.35: What are the type of reaction and role of the nitronium ion, NO2+, in the following...
- 22M.1A.HL.TZ1.35: What are the type of reaction and role of the nitronium ion, NO2+, in the following...
- 22M.2.HL.TZ1.6b(ii): Draw the structural formula of the carbocation intermediate produced when this electrophile...
- 22M.2.HL.TZ1.6b(ii): Draw the structural formula of the carbocation intermediate produced when this electrophile...
- 22M.2.HL.TZ1.b(ii): Draw the structural formula of the carbocation intermediate produced when this electrophile...