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I make it 36, as well as 6 double bonds and a benzene ring.
When glucose or other monosaccharides are placed in an aqueous solution, they curl and take a ring form. This is in contrast to the linear form they take otherwise.
Cyclohexane is an example: a compound formed fron only one ring.
according to my calculations, the answer to this question is a single circular DNA molecule... your welcome (:
The molecules that are classified as carbohydrates are monosaccharaides, polysaccharides and disaccharides. Carbohydrates are also referred to as saccharides that are composed of the elements hydrogen, carbon and oxygen.
Pyrimidines have a single ring in their molecule.
I make it 36, as well as 6 double bonds and a benzene ring.
When glucose or other monosaccharides are placed in an aqueous solution, they curl and take a ring form. This is in contrast to the linear form they take otherwise.
Cyclohexane is an example: a compound formed fron only one ring.
a molecule, shaped like a ring
1 ring=1year
Simple sugars are monosaccharides , they are either in chain form or in ring form .
A ring is a cyclic molecule as benzene.
Monosaccharides and DisaccharidesIn the category of nutrients, there are monomers and polymers. Monomers are the "building blocks" of large macromolecules, or any molecule chain created through condensation reactions. These are the polymers, three or more monomers bonded together. In the category of carbohydrates, there are monosaccharides, disaccharides, oligosacchaides, and polysaccharides. Just from the prefixes, you can tell that the monosaccharides are monomers, the disaccharides are two bonded monomers (monosaccharides) and oligosacchaides and polysaccharides are made up of many monomers (monosaccharides).The monosaccharides are just a single carbon ring (in the natural aqueous environment of an organism). The monosaccharides include glucose, fructose, and galactose. The disaccharides are two carbon rings bonded together by a glycosidic linkage in a condensation (dehydration) reaction, which removes a molecule of water. Disaccharides include maltose (glucose + glucose), lactose (glucose + galactose), sucrose (glucose + fructose), and more.When we consume food, we are taking in the large polysacchaides such as starch and smaller molecules such as maltose. We take these long molecules and digest them - break up their glycosidic linkages until they are monosaccharides (monomers) that we can absorb throughout out alimentary canal (usually in small intestine).A monosaccharide is one saccharide (or sugar) molecule. An example of a monosaccharide is glucose.A disaccharide is two saccharides (sugars) bonded together through a dehydration reaction. An example of a disaccharide is maltose which is two glucose linked together.A polysaccharide is typically ten or more saccharides bonded together. Cellulose is an example of a polysaccharide, which is ten or more glucose linked together.
Monosaccharides and DisaccharidesIn the category of nutrients, there are monomers and polymers. Monomers are the "building blocks" of large macromolecules, or any molecule chain created through condensation reactions. These are the polymers, three or more monomers bonded together. In the category of carbohydrates, there are monosaccharides, disaccharides, oligosacchaides, and polysaccharides. Just from the prefixes, you can tell that the monosaccharides are monomers, the disaccharides are two bonded monomers (monosaccharides) and oligosacchaides and polysaccharides are made up of many monomers (monosaccharides).The monosaccharides are just a single carbon ring (in the natural aqueous environment of an organism). The monosaccharides include glucose, fructose, and galactose. The disaccharides are two carbon rings bonded together by a glycosidic linkage in a condensation (dehydration) reaction, which removes a molecule of water. Disaccharides include maltose (glucose + glucose), lactose (glucose + galactose), sucrose (glucose + fructose), and more.When we consume food, we are taking in the large polysacchaides such as starch and smaller molecules such as maltose. We take these long molecules and digest them - break up their glycosidic linkages until they are monosaccharides (monomers) that we can absorb throughout out alimentary canal (usually in small intestine).A monosaccharide is one saccharide (or sugar) molecule. An example of a monosaccharide is glucose.A disaccharide is two saccharides (sugars) bonded together through a dehydration reaction. An example of a disaccharide is maltose which is two glucose linked together.A polysaccharide is typically ten or more saccharides bonded together. Cellulose is an example of a polysaccharide, which is ten or more glucose linked together.
Monosaccharides are building blocks of carbohydrates. They can exist in chain form or ring form, and in many cases, the only difference in these structures is in the arrangement of the hydroxyl groups.
according to my calculations, the answer to this question is a single circular DNA molecule... your welcome (: