poly sacchardies have more calories than fatty acids poly sacchardies have more calories than fatty acids
The difference between a hydrocarbon and a fatty acid is that a fatty acid is a hydrocarbon chain with a carboxylic acid head.
In chemistry, especially biochemistry, a fatty acid is a carboxylic acid with a long aliphatic tail (chain), which is either saturated or unsaturated. Most naturally occurring fatty acids have a chain of an even number of carbon atoms, from 4 to 28. Fatty acids are usually derived from triglycerides orphospholipids. When they are not attached to other molecules, they are known as "free" fatty acids.
Depends which fat, there are many different compounds that are considered fatty acids. All contain an even number of carbons and a carboxyllic acid terminus. There are also 3 categories for these fats, saturated fatty acids, MUFAs (mono-unsaturated fatty acids), and PUFAs (poly-unsaturated fatty acids). A small 16-chain fatty acid which is completely saturated would look like this: CH3(CH2)14COOH Or C16H32O2
Fatty acids and glycerol
glycerol and three fatty acids
There is no difference between saturated fatty acids and saturated fatty acids. If you meant saturated fatty acids and UNsaturated fatty acids, then the unsaturated ones are the ones with double (or, theoretically, triple) bonds in the carbon chain.
Unsaturated fatty acids have double bond or triple bonds, whereas saturated fatty acids do not.
Free fatty acids are those long chain acids (fatty acids) that are not conjugated or attached to anything else. That is, they are "free", and not bound. Fatty acids that are attached to, for example, glycerol, are not longer considered "free". They can also be bound to proteins, like albumin, again, making them not "free", because they are bound.
Saturated fatty acids have no double covalent bonds between carbon atoms. The carbon in the chain is saturated with all the hydrogens it can hold. Saturated fatty acids account for the solid nature at room temperature of fats such as lard and butter. Unsaturated fatty acids have double bonds between carbon atoms wherever the number of hydrogens is less than two per carbon atom. Unsaturated fatty acids account for the liquid nature of vegetable oils at room temperature.
The difference is related to which long chain fatty acid is incorporated. If it is a fatty acid that has double bonds, then it is an unsaturated lipid. If it contains fatty acids that have no double bonds, then it is a saturated lipid.
There is one major difference regarding the structure of a phospholipid, and a triglyceride. The triglyceride is made of a glyceride molecule. Three lipids, called fatty acids, are bound to this molecule. Phospholipids also contain glyceride and fatty acids. However, instead of three fatty acids, they only have two. The third bound molecule is a phosphate.
Saturated fatty acids do not have double bonds between carbon atoms and unsaturated.
Just the difference between cis and trans isomers. The arrangement of functional groups around double bonded carbons. Same groups lined up on the same side are cis fatties and alternate groups lined up on the different sides are trans fatty acids.
No, there is a great difference between lipaseand protease. lipase: digest fats and oils into glycerol and fatty acids. protease: digest protein into amino acids.
Essentially, there is no difference. Some prefer to use the term non-esterified fatty acid (NEFA) compared with free fatty acid (FFA) because many find the term FFA confusing with respect to fatty acids that circulate within the bloodstream which are 'bound' to albumin, but not esterified to another chemical moiety compared with intracellular fatty acids that are not 'bound' to albumin which are also not esterified to another chemical moiety.
Lipids are organic compounds which are fatty acids and insoluble in water. Starches, meanwhile, are carbohydrates which are tasteless and odorless.
Fatty acid is a carboxylic acid with a long aliphatic tail (chain), which is either saturated or unsaturated. A saturated fatty acid contains the maximum amount of hydrogen atoms. Saturated fatty acids are long-chain carboxylic acids that generally have between 12 and 24 carbon atoms and have no double bonds. They are saturated with hydrogen because saturated fatty acids have only single bonds, each carbon atom within the chain has 2 hydrogen atoms. Unsaturated fatty acids do not contain the maximum amount of hydrogen atoms, therefore two or more carbon atoms are attached with a double bond. Unsaturated fatty acids have one or more double bonds between carbon atoms.