Interpretation:
A synthetic strategy of converting stearic acid to given products is to be devised.
Concept Introduction:
Electrophiles are electron deficient species which has positive or partially positive charge. Lewis acids are electrophiles which accept electron pair.
Nucleophiles are electron rich species which has negative or partially negative charge. Lewis bases are nucleophiles which donate electron pair.
Free radical is an atom, molecule or ion that has unpaired electrons which makes it highly chemically reactive.
Substitution reaction: A reaction in which one of the hydrogen atoms of a hydrocarbon or a
Elimination reaction: A reaction in which two substituent groups are detached and a double bond is formed is called elimination reaction.
Addition reaction: It is the reaction in which unsaturated bonds are converted to saturated molecules by the addition of molecules.
Amides can be reduced to amine using lithium aluminum hydride
Alcohols can be converted to alkyl bromides using phosphorous tribromide (PBr3).
Carboxylic acids can be converted to esters using either Fischer esterification or Steglich esterification. In Fischer esterification, alcohols and carboxylic acids are condensed using catalytic amounts of concentrated sulfuric acid.
Steglich esterification, on the other hand, employs DCC (N,N´-dicyclohexylcarbodiimide) in conjunction with DMAP (4-dimethylaminopyridine) catalyst.
Carboxylic acids can be coupled with secondary amines using coupling agent like
Stearic acid can be first converted to stearoyl chloride, which can subsequently be converted to ethyl stearate using ethyl alcohol.
The stearic acid is converted to ethyl stearate in the presence of tert-butyl alcohol, DCC and DMAP.
Stearic acid can first be converted to stearoyl chloride, which can then be allowed to react with ammonia to form stearamide.
The stearic acid can be coupled with dimethylamine using
The stearic acid is converted to stearamide, and then the stearamide is reduced with LiAlH4 to form octadecyl amine.
The stearic acid can first be converted to stearamide, which can then be converted to heptadecylamine using Hofmann rearrangement.
Octadecanal can be prepared by first reducing stearic acid to 1-octadecanol, and then oxidizing 1-octadecanol with Dess–Martin periodinane.
Octedecyl stearate can be prepared from the condensation of stearic acid and octadecyl alcohol using Fischer esterification.
Stearic acid can be converted to 1-octadecanol by borane reduction.
2-Nonadecanone can be made first by converting stearic acid to stearoyl chloride.
1-Bromooctadecane can be prepared by first converting stearic acid to 1-octadecanol and then reaction of 1-octadecanol with
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Chapter 23 Solutions
Organic Chemistry
- (11pts total) Consider the arrows pointing at three different carbon-carbon bonds in the molecule depicted below. Bond B Bond A Bond C a. (2pts) Which bond between A-C is weakest? Which is strongest? Place answers in appropriate boxes. Weakest Bond Strongest Bond b. (4pts) Consider the relative stability of all cleavage products that form when bonds A, B, AND C are homolytically cleaved/broken. Hint: cleavage products of bonds A, B, and C are all carbon radicals. i. Which ONE cleavage product is the most stable? A condensed or bond line representation is fine. ii. Which ONE cleavage product is the least stable? A condensed or bond line representation is fine. c. (5pts) Use principles discussed in lecture, supported by relevant structures, to succinctly explain the why your part b (i) radical is more stable than your part b(ii) radical. Written explanation can be no more than one-two succinct sentence(s)!arrow_forward. 3°C with TH 12. (10pts total) Provide the major product for each reaction depicted below. If no reaction occurs write NR. Assume heat dissipation is carefully controlled in the fluorine reaction. 3H 24 total (30) 24 21 2h • 6H total ● 8H total 34 래 Br2 hv major product will be most Substituted 12 hv Br NR I too weak of a participate in P-1 F₂ hv Statistically most favored product will be major = most subst = thermo favored hydrogen atom abstractor to LL Farrow_forwardFive chemistry project topic that does not involve practicalarrow_forward
- Please correct answer and don't used hand raitingarrow_forwardQ2. Consider the hydrogenation of ethylene C2H4 + H2 = C2H6 The heats of combustion and molar entropies for the three gases at 298 K are given by: C2H4 C2H6 H2 AH comb/kJ mol¹ -1395 -1550 -243 Sº / J K¹ mol-1 220.7 230.4 131.1 The average heat capacity change, ACP, for the reaction over the temperature range 298-1000 K is 10.9 J K¹ mol¹. Using these data, determine: (a) the standard enthalpy change at 800 K (b) the standard entropy change at 800 K (c) the equilibrium constant at 800 K.arrow_forward13. (11pts total) Consider the arrows pointing at three different carbon-carbon bonds in the molecule depicted below. Bond B Bond A Bond C a. (2pts) Which bond between A-C is weakest? Which is strongest? Place answers in appropriate boxes. Weakest Bond Strongest Bond b. (4pts) Consider the relative stability of all cleavage products that form when bonds A, B, AND C are homolytically cleaved/broken. Hint: cleavage products of bonds A, B, and C are all carbon radicals. i. Which ONE cleavage product is the most stable? A condensed or bond line representation is fine. ii. Which ONE cleavage product is the least stable? A condensed or bond line representation is fine. c. (5pts) Use principles discussed in lecture, supported by relevant structures, to succinctly explain the why your part b (i) radical is more stable than your part b(ii) radical. Written explanation can be no more than one-two succinct sentence(s)! Googlearrow_forward
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Introduction to General, Organic and BiochemistryChemistryISBN:9781285869759Author:Frederick A. Bettelheim, William H. Brown, Mary K. Campbell, Shawn O. Farrell, Omar TorresPublisher:Cengage Learning