1. (10) Draw the triacylglycerol formed by the reaction of glycerol and the fatty acids oleic,...
4. A list of fatty acids is given below. The number of carbons each contains, as well as the number of double bonds, are listed right after the name. Rank the fatty acids 1-5 from highest melting point to lowest melting point. 1 - highest melting point, 5 - lowest melting point. Palmitic acid (16 carbons, 0 double bonds) Oleic acid (18 carbons, 1 double bond) Linolenic acid (18 carbons, 3 double bonds) Lauric acid (12 carbons, 0 double bonds)...
Triacylglycerol A contains 53% oleic acid, 29% linoleic acid, 9% palmitic acid, 4% stearic acid, 1% myristic acid and lesser amounts of other fatty acids. Triacylglycerol B contains 39% oleic acid, 29% palmitic acid, 24% stearic acid, 2% myristic acid, 2% linoleic acid, and lesser amounts of other fatty acids. Which of the two samples is expected to be solid at room temperature? Why pls? Thanks
Please answer all components. Postlab 1) Coconut oil ls omprised of a misture of fatty acids in the form of triglycerides. The most abundant fatty acids in coconut oil are as follows: Lauric acid (48%) oleic acid (6.5%) Myrisitic acid (16%) Palmitic acid (9.5%) Draw the structure of each of these fatty acids: Considering the structures above, explain the relatively high melting point of coconut oll 2) Some oils that are improperly stored (exposed to oxygen) over long periods of...
Draw a triacylglycerol (triglyceride) made from glycerol, myristic acid (CH, (CH),COOH , palmitic acid (CH,(CH),COOH), and oleic acid (CH,(CH),CH=CH(CH,),COOH (cis)] . Place palmitic acid at the middle position. Cis/trans isometry is graded; it may help to draw hydrogen atoms associated with the carbon atoms of the double bond. Select Draw Draw Rings More Erase Predict whether this triacylglycerol is a liquid or a solid at room temperature (25 °C). liquid O solid
Draw a triacylglycerol (triglyceride) made from glycerol, myristic acid (CH,(CH),COOH) , palmitic acid [CH,(CH) 14COOH) , and oleic acid (CH,(CH),CH=CH(CH),COOH(cis)] . Place palmitic acid at the middle position. Cis/trans isometry is graded; it may help to draw hydrogen atoms associated with the carbon atoms of the double bond. Select Draw Rings More Erase Q2Q Predict whether this triacylglycerol is a liquid or a solid at room temperature (25 °C). O solid liquid
Fill in the blanks. Careful with spelling. reaction of glycerol and Fatty acids are stored as neutral lipids called triglycerides (TGs) and are formed from the three fatty acids.
Fill in the blanks. Careful with spelling. reaction of glycerol Fatty acids are stored as neutral lipids called triglycerides (TGs) and are formed from the and three fatty acids.
Draw the structure of a triacylglycerol containing the following fatty acids: 16:1 Δ9 , 16:0 and 18:2 Δ 9,12 .
Which of the following is true of a triacylglycerol? 1) A triacylglycerol rarely contains the same fatty acid at all 3 positions. 2) A triacylglycerol is formed when 3 fatty acids react with the 3 hydroxyl groups of the glycerol moiety. 3) A triacylglycerol always contains the same fatty acid at all three positions. A) B) only. B) A) and B) are both correct C) A) only. D) C) only.
26. Melting Points of Lipids The melting points of a series of 18-carbon fatty acids are: stearic acid, 69.6 °C, oleic acid, 13.4 °C; linoleic acid, -5 °C; and linolenic acid, -11 °C. (a) What structural aspect of these 18-carbon fatty acids can be correlated with the melting point? (b) Draw all the possible triacylglycerols that can be constructed from glycerol, palmitic acid, and oleic acid. Rank them in order of increasing melting point. (c) Branched-chain fatty acids are found...