Why are para isomers favored over ortho isomers in electrophilic aromatic substitution?

1.Which of the following would react faster than benzene in an electrophilic aromatic substitution reaction? a....

1.Which of the following would react faster than benzene in an electrophilic aromatic substitution reaction? a. acetophenone b. benzoic acid c. anisole d. chlorobenzene 2.Which of the following would react slower than benzene in an electrophilic aromatic substitution reaction? a. benzaldehyde b. phenol c. toluene d. aniline 3.If an electrophile was added to acetophenone via an electrophilic aromatic substitution, at what position(s) of the ring would the electrophile add? a. ortho b. meta c. ortho d. para only 4.If an...

Explain why electrophilic aromatic substitution reactions on aryl rings meta directing substituents are slower than the...

Explain why electrophilic aromatic substitution reactions on aryl rings meta directing substituents are slower than the same reaction on aryl rings with ortho/para directing substituents.  

Substituents on an aromatic ring can have several effects on electrophilic aromatic substitution reactions. Substituents can...

Substituents on an aromatic ring can have several effects on electrophilic aromatic substitution reactions. Substituents can activate or deactivate the ring to substitution, donate or withdraw electrons inductively, donate or withdraw electrons through resonance, and direct substitution either to the ortho/para or to the meta positions. From the following lists, select the substituents that have the indicated property. The substituents are written as -XY, where X is the atom directly bound to the aromatic ring. Ortho/para-directed substitution: -COOH -NO2 -F...

Why benzene is an ortho/para directing group? Show all resonance for ortho, para, and meta substitution...

Why benzene is an ortho/para directing group? Show all resonance for ortho, para, and meta substitution and explain the difference.

True or False? e. Benzoic acid is more reactive than benzene toward electrophilic aromatic substitution f....

True or False? e. Benzoic acid is more reactive than benzene toward electrophilic aromatic substitution f. para-chlorobenzoic acid is more acidic than para-methoxybenzoic acid g. A vinyl group is a meta director h. para-nitroaniline is more basic than para-chloroaniline

For this assignment, the target compound that you should synthesize is 1-methyl-4-nitro-benzene. This is an electrophilic...

For this assignment, the target compound that you should synthesize is 1-methyl-4-nitro-benzene. This is an electrophilic aromatic substitution reaction. Examine the product carefully and determine the substitution pattern. Which group will already be present in the substrate? Keep in mind the mechanism and how that will control the selectivity of the process. Remember, you can easily separate ortho and para isomers Please list the reaction scheme for 1-methyl-4-nitro-benzene

Discuss the polarity of both Ortho- and Para- nitrotrophenol isomers. Explain where the differences come from.

Discuss the polarity of both Ortho- and Para- nitrotrophenol isomers. Explain where the differences come from.

How does the intermediate produced in nucleophilic aromatic substitution differ from the intermediate produced in electrophilic...

How does the intermediate produced in nucleophilic aromatic substitution differ from the intermediate produced in electrophilic aromatic substitution? How are the two intermediates similar? Briefly explain.

Performed Iodination of Salicylamide demonstrating electrophilic aromatic substitution. My suspicion is that this experiment would fail...

Performed Iodination of Salicylamide demonstrating electrophilic aromatic substitution. My suspicion is that this experiment would fail if NaI were substituted with NaCl to makechlorosalicylamide. Explain why the experiment would not be (as) successfulwith NaCl.

Comment on relative “activating strength” of methoxy and hydroxy groups in electrophilic aromatic substitution in bromination...

Comment on relative “activating strength” of methoxy and hydroxy groups in electrophilic aromatic substitution in bromination of vanillin (product being 5-bromovanillin)