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

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.  

3. Are the following substituents ortho/para or meta directors? EXPLAIN WHY. a. CF3 b. NO2

3. Are the following substituents ortho/para or meta directors? EXPLAIN WHY. a. CF3 b. NO2

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...

a) explain why resonance theory would predict that anisole, chlorobenzene and diphenyl ether would all have...

a) explain why resonance theory would predict that anisole, chlorobenzene and diphenyl ether would all have similar rates for bromine adding to the para-position, when compared with tolunene and the three xylenes b) Using resonance theory, which of the xylenes (ortho, meta, or para) is predicted to react fastest? Explain the answer. Please help with this two questions, great explanation will be very necessary and helpful, thanks in advance.

Thoroughly explain the difference in the pKa's of A) meta-cyanophenol (8.61) and B) para-cyanophenol (7.95) ....

Thoroughly explain the difference in the pKa's of A) meta-cyanophenol (8.61) and B) para-cyanophenol (7.95) . In other words, which is the stronger acid and WHY? Be sure to clearly address resonance effects. Your response should consider the Guiding Questions. Only 100-400 words. Guiding questions: 1) What is the relationship between pKa and acidity? 2) Which is the stronger acid, A or B? 3) What do the conjugate bases of these phenols look like? (please refer to them as CB-A...

How can you convert benzene to the following compounds using this list of reagents? 1. HNO3,...

How can you convert benzene to the following compounds using this list of reagents? 1. HNO3, H2SO4   2. SO3, H2SO4    3. NaNO2, HCl    4. Br2, FeBr3    5. Cl2, FeCl3 6. CuCN    7. CuCl    8. CuBr    9. H2O, ∆    10. CH3CH2CH2Cl, AlCl3 11. CH3CH2COCl (an acid chloride), AlCl3   12. Zn-Hg, EtOH, HCl   13. (1. Sn, HCl 2. NaOH, H2O) 14. CH3Cl , AlCl3      15. KMnO4 A) m-nitropropylbenzene B) p-nitropropylbenzene I tried 1, 10 for the first one and 10, 1 for...

1. Although all bond lengths in benzene are identical (due to resonance stabilization), that is not...

1. Although all bond lengths in benzene are identical (due to resonance stabilization), that is not always true for all aromatic compounds. In naphthalene, the C1-C2 bond is shorter than the C2-C3 bond. Explain why? And explain using the resonance theory. 2. Use the "polygon-in-circle" method to draw an MO diagram showing the pi-electron distribution pattern in the cyclopentadienyl anion. How is this diagram useful in explaining the aromatic properties of this anion? And what else can be said about...

Dye Coupling, Complete electropholic aromatic substitution mechanisms (SHOW ALL RESONANCE FOR THE INTERMEDIATES FORMED): 1. 4-diazo...

Dye Coupling, Complete electropholic aromatic substitution mechanisms (SHOW ALL RESONANCE FOR THE INTERMEDIATES FORMED): 1. 4-diazo N, N-diethylaniline fluoroborate and resorcinol. 2. 4-diazo N, N-diethylaniline fluoroborate and phloroglucinol. 3. 4-diazo N, N-diethylaniline fluoroborate and 2,4-pentanedione. 4. 4-diazo N, N-diethylaniline fluoroborate and 3-methyl-1-phenyl-2-pyrazolin-5-one. Thanks

Trig integration. Evaluate the indefinite integral using Trigonometric Substitution. Make sure to show all your work,...

Trig integration. Evaluate the indefinite integral using Trigonometric Substitution. Make sure to show all your work, and explain why/what you are doing at each step. Include all relevant diagrams. ∫ 22?^2/√(49−?^2)??

Evaluate the indefinite integral using Trigonometric Substitution. Make sure to show all your work, and explain...

Evaluate the indefinite integral using Trigonometric Substitution. Make sure to show all your work, and explain why/what you are doing at each step. Include all relevant diagrams. If you would prefer to narrate your explanation instead of typing it, that is a possibility. ∫ 22? 2 √49−? 2 ?x