Many polymers consist of a single kind of monomer that repeats over again multiple times.
Monomers come together to form polymers through dehydration condensation and polymers split apart from monomers through hydrolysis.
Polymerization reactions form monomers. Monomers are smaller molecules that come together to form larger polymer molecules through various chemical reactions, such as condensation polymerization or addition polymerization. During polymerization, monomers join together to create long chains or networks, resulting in the formation of polymers.
Starting materials for most polymers come from petrochemical sources such as crude oil or natural gas. These raw materials are refined and processed to extract the building blocks needed to create polymers through polymerization reactions. Additionally, some polymers can also be derived from renewable sources such as plants or animals.
YES! polyvinyl chloride is a synthetic polymer. This is so because it is a polychain made up of repeated units of monomers. More specifically this plastic has the presence of HCl and ethyne within the organic compound. This is a type of a plastic used for various purposes such as insulation for electrical wires.
The primary monomers that are decanted into the bloodstream are glucose, amino acids, and fatty acids. Glucose is derived from the digestion of carbohydrates, while amino acids come from the breakdown of proteins. Fatty acids are released from the digestion of fats. These monomers are crucial for providing energy and building blocks for various biological processes in the body.
Monomers come together to form polymers through dehydration condensation and polymers split apart from monomers through hydrolysis.
Polymerization reactions form monomers. Monomers are smaller molecules that come together to form larger polymer molecules through various chemical reactions, such as condensation polymerization or addition polymerization. During polymerization, monomers join together to create long chains or networks, resulting in the formation of polymers.
Monomers are smaller molecules which, connected by covalent chemical bonds, link together to form huge polymer molecules. These molecules tend to be very strong, and are found in substances such as plastics. Remember: mono=1, poly=many
Energy, by cellular respiration. Polymers of glucose, for instance, come into the body via your food and enzymes break them into monomers so they can be easily used in the cellular respiration process.
Starting materials for most polymers come from petrochemical sources such as crude oil or natural gas. These raw materials are refined and processed to extract the building blocks needed to create polymers through polymerization reactions. Additionally, some polymers can also be derived from renewable sources such as plants or animals.
Like with all nutrients, monomers are joined together by condensation reactions. The carboxyl group and the hydroxyl group come together and produce a water molecule. The monomers are called monosaccharides, two monomers are called disaccharides, and more than two monomers are called polysaccharides.
The phenomena of formation of large carbon compounds by the addition of small molecules is called polymerization and the molecules are come under macromolecules as they possess molecular weight several to hundred thousands
YES! polyvinyl chloride is a synthetic polymer. This is so because it is a polychain made up of repeated units of monomers. More specifically this plastic has the presence of HCl and ethyne within the organic compound. This is a type of a plastic used for various purposes such as insulation for electrical wires.
Glycosidic bonds are how monomers (monosaccharides) are linked together to form a polysaccharide. Like with all nutrient reactions, this is done through a condensation or dehydration reaction. The two carboxyl groups of two monomers come together. One monomer donates a hydrogen, while the other donates a hydroxyl, creating a molecule of water.
Plants do make and use some polymers (e.g. starch, cellulose etc.), as do some animals (e.g. spider silk) but most of what we know as polymers are artificial (e.g. polyethylene, nylon etc.).
Glucose itself is a monomer of both sugar and starch. A monomer is a component of a polymer; in other words, many monomers come together to form a polymer. In the glucose example, many glucose molecules can come together to form complex carbohydrates- the polymer of glucose. Source: AP Biology
This happens on a complex molecualr level. The calories aren't actually "made". They come from molecules, polymers, macromolecules, and monomers. This happens when amino acids, glucoses, and atoms combine to form molecules. Different molecules contain things like lipids (fats) or sugars (in sugar and starches) or proteins, which are what we know of as calories for energy.