Addition polymer
Monomers are similar to links in a chain in that they are individual units that can be linked together to form a larger structure. Just as links in a chain can be connected in various ways to create different patterns, monomers can be combined in different sequences to form a variety of polymers with unique properties. Additionally, both monomers and links in a chain are essential for building larger, more complex structures.
This reaction is called polymerization.
The chemical reaction that links monomers together to form polymers is called polymerization. During polymerization, monomers undergo a process where their chemical bonds are broken and new bonds are formed between the monomer units, resulting in a chain-like structure of repeating units known as a polymer. This process can be initiated by heat, light, or the addition of a catalyst.
In a polymerization process, monomers are linked together by chemical bonds to form a polymer chain. This typically involves a reaction where the monomers undergo a series of steps to form polymer chains of various lengths. The process can be initiated by heat, light, or a catalyst, and the resulting polymer can have different properties depending on the monomers used and the polymerization conditions.
The pair of functional groups that can be part of a condensation reaction to form a polymer chain is hydroxyl (-OH) and carboxyl (-COOH) groups. The hydroxyl group provides the -OH to form water during the condensation reaction, linking monomers together to form the polymer chain.
Polymerization .
The process of linking monomers to form a food chain is known as polymerization. This involves the chemical reaction that combines monomers to form larger molecular structures called polymers, such as proteins, carbohydrates, and nucleic acids.
Monomers are similar to links in a chain in that they are individual units that can be linked together to form a larger structure. Just as links in a chain can be connected in various ways to create different patterns, monomers can be combined in different sequences to form a variety of polymers with unique properties. Additionally, both monomers and links in a chain are essential for building larger, more complex structures.
This reaction is called polymerization.
The links in a polymer chain are covalent bonded.
The chemical reaction that links monomers together to form polymers is called polymerization. During polymerization, monomers undergo a process where their chemical bonds are broken and new bonds are formed between the monomer units, resulting in a chain-like structure of repeating units known as a polymer. This process can be initiated by heat, light, or the addition of a catalyst.
In a polymerization process, monomers are linked together by chemical bonds to form a polymer chain. This typically involves a reaction where the monomers undergo a series of steps to form polymer chains of various lengths. The process can be initiated by heat, light, or a catalyst, and the resulting polymer can have different properties depending on the monomers used and the polymerization conditions.
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During a dehydration reaction, amino acids form peptide bonds to create a peptide chain or a protein. This process involves the removal of a water molecule to link the amino acids together.
The pair of functional groups that can be part of a condensation reaction to form a polymer chain is hydroxyl (-OH) and carboxyl (-COOH) groups. The hydroxyl group provides the -OH to form water during the condensation reaction, linking monomers together to form the polymer chain.
A polymer is formed by the repeated bonding of smaller units known as monomers. These monomers undergo a chemical reaction, typically through polymerization, where covalent bonds link them together, creating a long chain or network structure. The properties of the resulting polymer depend on the type of monomers used and the structure of the polymer chain.
A chain of monomers is called a polymer, if it is sufficiently long. (We'd probably say something like trimer if there were only three.) Polymers can be formed by electrophilic addition, for instance polythene, or condensation, for instance a protein.