« previous next »

Author Question: When monitoring the reaction between benzene and 2-chloro-2-methylpropane using FeBr3 as the ... (Read 68 times)

lunatika

  • Hero Member
  • *****
  • Posts: 548
on: Aug 23, 2018
When monitoring the reaction between benzene and 2-chloro-2-methylpropane using FeBr3 as the catalyst, researchers observed the formation of a new alkyl halide. Draw the structure of this compound and show how it was formed using an arrow-pushing mechanism.

Question 2

In the introduction to this experiment, the text states that small amounts of HCl are present in samples of tert-butyl chloride. Write an arrow-pushing mechanism that explains the source of the HCl.

Question 3

The reaction of the ketone with Pd/C at elevated temperatures shown below led to no reaction. Explain this result.
 

Question 4

Pulegone, a cyclic monoterpene, can be isolated from the essential oil of pennyroyal, a member of the mint family. Reaction of pulegone with Pd/C at 180C, followed by the same work-up used in the reaction of carvone with Pd/C, generated two products in equal quantities. One product was isolated from the aqueous layer. The 1 H NMR of this material is shown below. The other product was isolated from the hexane layer by evaporating the hexane. The EIMS of this compound showed a molecular ion at m/z = 154. The IR spectrum had a sharp band at 1736 cm-1. In the 13C1 H NMR spectrum there was a peak at 198 ppm. Identify the compound isolated from each phase and explain how you reached your conclusions (Chapter 8). Write a balanced equation for the reaction of pulegone and Pd/C.
  See the scheme below.
Question 5

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 />"

Question 6

What feature(s) in the 1 H NMR spectra of molecules A and B could be used to distinguish between the two? Be specific in your explanation.

Question 7

In addition to TLC, how do you know a reaction occurred in the experiment?


joechoochoy

  • Sr. Member
  • ****
  • Posts: 306
Reply #1 on: Aug 23, 2018
Answer to Question 1



Answer to Question 2



Answer to Question 3

The driving force for the dehydrogenation reaction observed in this experiment and in question 4 is the formation of an aromatic ring. This is not possible with this starting cyclohexanone derivative. The pair of geminal methyl groups will not allow this to happen.

Answer to Question 4



Answer to Question 5


Answer to Question 6

The predicted multiplicities for the aromatic hydrogen atoms are indicated. The primary distinguishing feature between the two would be the fact that HA in compound A would be a singlet and HB in compound B would be a doublet of doublets.



Related Topics

Need homework help now?

Ask unlimited questions for free

Ask a Question
« previous next »
 

Did you know?

Drug abusers experience the following scenario: The pleasure given by their drug (or drugs) of choice is so strong that it is difficult to eradicate even after years of staying away from the substances involved. Certain triggers may cause a drug abuser to relapse. Research shows that long-term drug abuse results in significant changes in brain function that persist long after an individual stops using drugs. It is most important to realize that the same is true of not just illegal substances but alcohol and tobacco as well.

Did you know?

Historic treatments for rheumatoid arthritis have included gold salts, acupuncture, a diet consisting of apples or rhubarb, nutmeg, nettles, bee venom, bracelets made of copper, prayer, rest, tooth extractions, fasting, honey, vitamins, insulin, snow collected on Christmas, magnets, and electric convulsion therapy.

Did you know?

Many of the drugs used by neuroscientists are derived from toxic plants and venomous animals (such as snakes, spiders, snails, and puffer fish).

Did you know?

Oliver Wendell Holmes is credited with introducing the words "anesthesia" and "anesthetic" into the English language in 1846.

Did you know?

There are 20 feet of blood vessels in each square inch of human skin.

Reaction limited by substrate concentration Reaction limited by substrate concentration
Formation of a polynucleotide by a hypothetical dehydration reaction Formation of a polynucleotide by a hypothetical dehydration reaction
Enthalpic stabilization of the transition state in an enzyme-catalyzed reaction Enthalpic stabilization of the transition state in an enzyme-catalyzed reaction
The reaction of a PLP-dependent decarboxylation to yield serotonin The reaction of a PLP-dependent decarboxylation to yield serotonin
What is the value of the equilibrium constant, K, at 25°C for the reaction? What is the value of the equilibrium constant, K, at 25°C for the reaction?
What is the value for Kc for this reaction at 25°C? What is the value for Kc for this reaction at 25°C?
Video: Regulation of GFR: three methods, autoregulation & autoregulation via myogenic mechanism

For a complete list of videos, visit our video library