Monomer density of a polymer refers to the concentration of monomer units within the polymer structure, typically expressed in terms of moles per unit volume. It gives insight into how densely packed the repeating units are within the polymer, which can influence the material's mechanical and thermal properties. Higher monomer density often correlates with increased rigidity and strength, while lower density may result in more flexible and elastic characteristics. Understanding monomer density is crucial in polymer chemistry for tailoring materials for specific applications.
Polymer: DNA, Monomer: nucleotides Polymer: Proteins, Monomer: amino acids Polymer: Polysaccharides, Monomer: monosaccharides
There is no antonym for polymer
monomer
The smallest unit of a polymer is called a monomer. Monomers are the repeating units that link together to form a polymer chain through chemical bonds.
cellulose is a polymer. it a chain of repeating monomers. the monomer for cellulose is glucose. cellulose is a polymer. it a chain of repeating monomers. the monomer for cellulose is glucose.
Polymer: DNA, Monomer: nucleotides Polymer: Proteins, Monomer: amino acids Polymer: Polysaccharides, Monomer: monosaccharides
There is no antonym for polymer
monomer
polymer
Polymer
The smallest unit of a polymer is called a monomer. Monomers are the repeating units that link together to form a polymer chain through chemical bonds.
A polymer. Polymers are formed from the repetition of monomer units through chemical bonding to create long chains or networks.
Monomer
Lipids do not have monomers and they themselves are the polymer
A polymer is build out of its monomers.
cellulose is a polymer. it a chain of repeating monomers. the monomer for cellulose is glucose. cellulose is a polymer. it a chain of repeating monomers. the monomer for cellulose is glucose.
which polymer is correctly matched with its monomer A}starch-glucose B}maltose-amino acids C}protein-fatty acids D}lipid-sucrose