Draw the line-bond formula of an ester in jojoba wax formed from arachidic acid, a 20-carbon saturated fatty acid, and 1-docosanol, CH3(CH2)21OH.
Solution :-
When carboxylic acid is reacted with alcohol then it removes the water molecule and forms ester product.
Following image shows the structure of the ester formed from 1-docosanol and arachidic acid.
Draw the line-bond formula of an ester in jojoba wax formed from arachidic acid, a 20-carbon...
please include detailed bonds. 15. PRACTICE PROBLEMS 15.3 Waxes and Triacylglycerols LEARNING GOAL Draw the condensed structural or line-angle formula for a wax or triacylglycerol produced by the reaction of a fatty acid and an alcohol or glycerol. 15 15.19 Draw the condensed structural formula for the ester in beeswax that is formed from myricyl alcohol, CH3 -(CH2)29 -OH, and palmitic acid. 15.20 Draw the condensed structural formula for the ester in jojoba wax that is formed from arachidic acid,...
7. Draw the structure of a wax formed from a 30-carbon straight chain alcohol and each carboxylic acid a. lauric acid b. myristic acid c. CH(CH3),COOH 8. What hydrolysis products are formed when each wax is treated with aqueous sulfurie acid? a. CH (CH)COO(CH2)2CH. b. CH:(CH2)24COO(CH2CH, c. CH(CH3)COO(CH2).CH; 9. Draw a triacylglycerol that fits each description: a. A triacylglycerol formed from two molecules of lauric acid and one molecule of palmitic acid b. A polyunsaturated triacylglycerol formed from three molecules...
Draw the structure of a wax formed from stearic acid [CH3(CH2)16COOH] and the alcohol. CH3(CH2)9OH
OH + CH₃ -CH₂-OH c. benzoic acid 9. Draw the line-angle formula for the ester formed in each of the following reactions: 10. Write the IUPAC and common names, if any, of the carboxylic acid and alcohol needed to produce each of the following esters: H-C-0-CH, CH; -CH2-C-0-CH-CH CH 0 CH-CH-CH2-C-0--CH-CH:
3. Draw line-bond diagrams for linoleic, linolenic and arachidonic acids. TABLE 23.1 Structures of Some Common Fatty Acids Name No. of carbons Melting point("C) Structure 43.2 53.9 63.1 68.8 76.5 CH3(CH2) 10CO2H CH3(CH2)12CO2H CH3(CH2) 14CO2H CH3(CH2) 16CO2H CH(CH2)18CO2H Saturated Lauric Myristic Palmitic Stearic Arachidic Unsaturated Palmitoleic Oleic Linoleic Linolenic Arachidonic -0.1 13.4 -12 -11 -49.5 (Z)-CH(CH2)-CH-CH(CH2hCO2H (Z)-CH(CH2CH=CH(CH2);CO2H (Z.Z)-CH3(CH2),(CH-CHCH2)2(CH2)CO2H (all Z)-CH3CH2CH=CHCH2)2(CH2).CO2H (all Z)-CH(CH2)-(CH-CHCH2 CH2CH2CO2H 20
6. Draw the condensed structural formula for the ester formed in each of the following reactions: C-OH H+, heat + CH3 -CH2-OH CH3 0 H*, heat CH3-CH-0-OH + CH2-OH = b
Draw the condensed or line-angle structural formula for the ester formed in each of the following reactions: Draw the molecule on the canvas by choosing buttons from the Tools (for bonds and charges), Atoms, and Templates toolbars.
Question 8 (2 points) What wax is formed from palmitic acid (CH3(CH2)24COOH) and the alcohol CH3(CH2)210H? O A) CH3(CH2)14 COO(CH2)14CH3 OB) CH3(CH2)24COO(CH2)21CH3 OC) CH2(CH2)24COO(CH2)21CH3 OD) CH3(CH2)21 COO(CH2)14CH3 OA) Lactose can be hydrolyzed in the body, but maltose cannot. B) The two monosaccharides in lactose are joined by a 14-B-glycoside bond, while the two monosaccharides in maltose are joined by a 14-a-glycoside bond. c) Lactose contains two glucose units, while maltose contains two galactose units. D) Lactose contains both an acetal...
Question 3 5 pts Identify the class of lipid to which the following molecule belongs. CH2-0-C-(CH)6- (CH2-CH=CH2-CH2) -CH, CH-0-C-(CH2),CH=CH-(CH2)7 – CH3 CH2 –0-C-(CH), –(CH2 -CH=CH), –CH2 –CH; phospholipid fatty acid wax triglyceride Identify the class of lipid to which the following molecule belongs.. CH2 -0-C-(CH2) 16CH; CH-0-C-(CH)-CH=CH(CH2)-CH, O = CH,-o-P-0-(CH)-N(CH) triglyceride fatty acid wax phospholipid We were unable to transcribe this imageQuestion 13 5 pts A saturated fatty acid is a fatty acid chain in which a carbon chain has...
Draw the line‑bond structure of oleic acid (cis‑9‑octadecenoic acid), CH3(CH2)7CH=CH(CH2)7COOH, at physiological pH. Hydrogen atoms attached to carbon atoms do not need to be drawn.