Condensation. The opposite is known as dehydration synthesis.
It certainly depends on what type of polymer you are speaking. For peptide polymers the reaction for monomerization is hydrolysis. This is the addition of water in combination with the cleavage of the peptide bond.
The breaking down of some complex molecules, such as polymers, occurs through a process known as hydrolysis.Hydrolysis takes place in the presence of water containing an acid or a base as catalyst. The water causes polymers to breakdown to monomers. Hydrolysis reactions break bonds and release energy.
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.
Polyethylene, a polymer of ethene, is formed through a process called polymerization. This involves linking together many ethene molecules (monomers) through a series of chemical reactions. The double bond in each ethene molecule is broken, allowing the monomers to join together and form long chains known as polymers.
Your body can use the monomers obtained from breaking down polymers as building blocks to create new molecules that the body needs, such as proteins or nucleic acids. Monomers can also be used as an energy source by the body through processes like metabolism.
hydrolysis
When polymers are broken down into monomers, the body uses those monomers for a number of activities. Some of them include protein construction and respiration. The process of polymers breaking down to monomers is called hydrolysis.WRITEN BY: oneofthem:
It certainly depends on what type of polymer you are speaking. For peptide polymers the reaction for monomerization is hydrolysis. This is the addition of water in combination with the cleavage of the peptide bond.
The breaking down of some complex molecules, such as polymers, occurs through a process known as hydrolysis.Hydrolysis takes place in the presence of water containing an acid or a base as catalyst. The water causes polymers to breakdown to monomers. Hydrolysis reactions break bonds and release energy.
Hydrolysis. Polymers are broken down into monomers in a process known as hydrolysis
All monomers of addition polymers have a carbon-carbon double bond which can be broken during the polymerization process to form a long chain polymer.
Monomers are broken up through hydrolysis reactions. This is when the monomers break and are "capped" with a hydrogen or a hydroxyl (if not, then such molecules can do damage to the body). This process is aided by enzymes (proteins) which catalyze the reactions.
HYDROLYSIS
Catabolic reactions breakdown polymers into monomers. Enzymes in our body essentially aid in that process. Polymers cannot be absorbed into the cells so it has to be broken down into simpler units.
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.
Polyethylene, a polymer of ethene, is formed through a process called polymerization. This involves linking together many ethene molecules (monomers) through a series of chemical reactions. The double bond in each ethene molecule is broken, allowing the monomers to join together and form long chains known as polymers.
Your body can use the monomers obtained from breaking down polymers as building blocks to create new molecules that the body needs, such as proteins or nucleic acids. Monomers can also be used as an energy source by the body through processes like metabolism.