Concept explainers
(a)
Interpretation:
Structure of alcohol that is formed when the given compound undergoes reduction with molecular hydrogen and nickel catalyst have to be drawn.
Concept Introduction:
In
In organic chemistry, reduction reaction is referred to the number
Alcohols undergo oxidation reaction and reduction reaction. This depends upon the number of hydrogen atoms that is bonded to the alpha carbon atom. Primary and secondary alcohol undergoes oxidation reaction while tertiary alcohol does not undergo oxidation reaction. Primary alcohols undergo oxidation to give
Aldehyde undergoes oxidation to give carboxylic acid as the product while ketone does not undergo oxidation reaction.
The reverse of
(b)
Interpretation:
Structure of alcohol that is formed when the given compound undergoes reduction with molecular hydrogen and nickel catalyst have to be drawn.
Concept Introduction:
In organic chemistry, oxidation reaction is referred to the number
In organic chemistry, reduction reaction is referred to the number
Alcohols undergo oxidation reaction and reduction reaction. This depends upon the number of hydrogen atoms that is bonded to the alpha carbon atom. Primary and secondary alcohol undergoes oxidation reaction while tertiary alcohol does not undergo oxidation reaction. Primary alcohols undergo oxidation to give aldehyde and carboxylic acid as product. Secondary alcohol undergoes oxidation to give ketone as the product.
Aldehyde undergoes oxidation to give carboxylic acid as the product while ketone does not undergo oxidation reaction.
The reverse of oxidation reaction is reduction reaction. Reduction of aldehyde gives primary alcohol as the product and reduction of ketone gives secondary alcohol as the product. Reduction can be accomplished using hydrogen gas and a metal catalyst namely nickel.
(c)
Interpretation:
Structure of alcohol that is formed when the given compound undergoes reduction with molecular hydrogen and nickel catalyst have to be drawn.
Concept Introduction:
In organic chemistry, oxidation reaction is referred to the number
In organic chemistry, reduction reaction is referred to the number
Alcohols undergo oxidation reaction and reduction reaction. This depends upon the number of hydrogen atoms that is bonded to the alpha carbon atom. Primary and secondary alcohol undergoes oxidation reaction while tertiary alcohol does not undergo oxidation reaction. Primary alcohols undergo oxidation to give aldehyde and carboxylic acid as product. Secondary alcohol undergoes oxidation to give ketone as the product.
Aldehyde undergoes oxidation to give carboxylic acid as the product while ketone does not undergo oxidation reaction.
The reverse of oxidation reaction is reduction reaction. Reduction of aldehyde gives primary alcohol as the product and reduction of ketone gives secondary alcohol as the product. Reduction can be accomplished using hydrogen gas and a metal catalyst namely nickel.
(d)
Interpretation:
Structure of alcohol that is formed when the given compound undergoes reduction with molecular hydrogen and nickel catalyst have to be drawn.
Concept Introduction:
In organic chemistry, oxidation reaction is referred to the number
In organic chemistry, reduction reaction is referred to the number
Alcohols undergo oxidation reaction and reduction reaction. This depends upon the number of hydrogen atoms that is bonded to the alpha carbon atom. Primary and secondary alcohol undergoes oxidation reaction while tertiary alcohol does not undergo oxidation reaction. Primary alcohols undergo oxidation to give aldehyde and carboxylic acid as product. Secondary alcohol undergoes oxidation to give ketone as the product.
Aldehyde undergoes oxidation to give carboxylic acid as the product while ketone does not undergo oxidation reaction.
The reverse of oxidation reaction is reduction reaction. Reduction of aldehyde gives primary alcohol as the product and reduction of ketone gives secondary alcohol as the product. Reduction can be accomplished using hydrogen gas and a metal catalyst namely nickel.
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Chapter 15 Solutions
EBK GENERAL, ORGANIC, AND BIOLOGICAL CH
- For the following monosaccharide, draw the products formed when treated with each reagent. H H -OH HO H HO H H― -OH CH₂OH Part 1 of 2 H2 in the presence of a Pd catalyst. Modify the Fischer projection of the monosaccharide to represent the product. H H -ОН HO H HO H H -OH CH₂OH Part 2 of 2 Benedict's reagent. Modify the Fischer projection of the monosaccharide to represent the product. H H -OH HO -Н HO H H -OH CH₂OH ☐ : G ☐ E ☐: ☑ P Garrow_forwardModify the Fischer projection of the following aldose to show the compound that is formed when the aldose is treated with H2 in the presence of a Pd catalyst. CHO H -OH HO H H .OH CH₂OH X :ロ Garrow_forwardFor the following monosaccharide, draw the products formed when treated with each reagent. H. HO H H OH HO H H OH Part 1 of 2 CH₂OH H₂ in the presence of a Pd catalyst. Modify the Fischer projection of the monosaccharide to represent the product. H HO -H H -OH HO -H H -OH CH₂OH Part 2 of 2 Benedict's reagent. Modify the Fischer projection of the monosaccharide to represent the product. HO H H -OH HO H H -OH CH₂OH Q:arrow_forward
- Give at least 5 examples of biological compounds having an alcohol functional group and identify the biochemical importance of each compound.arrow_forwarddraw a lewis structure for Cu + 2AgNO3 Cu(NO 3)2 + 2Ag Lanel the oxidized and reduced agents.arrow_forwardDraw the major organic product for each of the following reactions. You must show the correct stereochemistry of the product where relevant.arrow_forward
- 2-butanol can be formed as the only product of the Markovnikov addition of H2O to two different alkenes. In contrast, 2-nonanol can be formed as the only product of the Markovnikov addition of H2O to just one alkene. To examine the difference, draw the alkene starting materials of each alcohol. + Draw the bond-line (skeletal) structures of the two alkene starting materials that can be used to synthesize 2-butanol via Markovnikov hydration. Part 1 of 2 Click and drag to start drawing a structure. Х : ☐arrow_forwardIn observing a Haworth or cyclohexane-chair representation of alpha-d-glucopyranose, the anomeric carbon can de best identified by: a) the carbon atom which is bonded to the most H atoms b) the carbon atom which is bonded to the least H atoms c) The carbon atom which has its OH group pointing down d) The carbon atom which is bonded to two oxygen atoms Cellulose differs from amylose in that: a) cellulose has 1-6 branches while amylose does not b) amylose has 1-6 branches while cellulose does not c) amylose has alpha glycosidic bonds while cellulose has beta glycosidic bonds d) cellulose contains sulfate while amylose does not. The glycosaminoglycan (mucopolysaccharide) which is not normally associated with joint tissue is: a) heparin b) keratan sulfate c) chondroitin sulfate d) hyaluronic acid In glycoproteins, which amino acid does not bond sugar molecules? a) Asn b) Ser c) Thr d) Gly Which feature do all lipid molecules share in common? a) fatty acid molecules…arrow_forwardDraw structural formulas for the alkoxide ion and the alkyl(aryl)bromide that may be used in a Williamson synthesis of the ether shown. CH3CH2CH2CH2-0-CH2CH2CH2CH3 • You do not have to consider stereochemistry. • Do not include counter-ions, e.g., Na*, I, in your answer. • Draw one structure per sketcher. Add additional sketchers using the drop-down menu in the bottom right corner. O Separate structures with + signs from the drop-down menu.arrow_forward
- Fumaric acid is a metabolic intermediate that has the systematic name trans-2-butenedioic acid. Draw its structure.arrow_forwardIn a paragraph form, provide the experimental procedures of the development of the ring structure of α-tetralene by elimination of the water molecule will result in this product being heated in the presence of strong sulphuric acid.arrow_forwardDraw the skeletal structure of the alkene that is needed as a starting material to prepare each of the following alcohols. Part 1 of 2 CH3CH(OH)CH3 Click and drag to start drawing a structure. ☑ :arrow_forward
