do all plastics have the same type of arrangement of monomeric units? How are monomers arranged in plastic? Which arrangement is the strongest and why?
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omers are the building blocks of more complex molecules, called polymers. Polymers consist of repeating molecular units which usually are joined by covalent bonds. Here is a closer look at the chemistry of monomers and polymers.
MONOMERS
The word monomer comes from mono- (one) and -mer (part). Monomers are small molecules which may be joined together in a repeating fashion to form more complex molecules called polymers.
Monomers form polymers by forming chemical bonds or binding supramolecularly through a process called polymerization. Sometimes polymers are made from bound groups of monomer subunits (up to a few dozen monomers) called oligomers. A related term is "monomeric protein", which is a protein which bonds to make a multiprotein complex. Monomers are not just building blocks of polymers, but are important molecules in their own right, which do not necessarily form polymers unless the conditions are right.
EXAMPLES OF MONOMERS
Examples of monomers include vinyl chloride (polymerizes into polyvinyl chloride or PVC), glucose (polymerizes into starch, cellulose, laminarin, and glucans), and amino acids (which polymerize into peptides, polypeptides, and proteins). Glucose the most abundant natural monomer, which polymerizes by forming glycosidic bonds.
POLYMERS
The word polymer comes from poly- (many) and -mer (part).
A polymer may be a natural or synthetic macromolecule comprised of repeating units of a smaller molecule (monomers). While many people use the term 'polymer' and 'plastic' interchangeably, polymers are a much larger class of molecules which includes plastics, plus many other materials, such as as cellulose, amber, and natural rubber.
Lower molecular weight compounds may be distinguished by the number of monomeric subunits they contain. The terms dimer, trimer, tetramer, pentamer, hexamer, heptamer, octamer, nonamer, decamer, dodecamer, eicosamer reflects molecules containing 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, and 20 monomer units.
EXAMPLES OF POLYMERS
Examples of polymers include plastics such as polyethylene, silicones such as silly putty, biopolymers such as cellulose and DNA, natural polymers such as rubber and shellac, and many other important macromolecules.
GROUPS OF MONOMERS AND POLYMERS
The classes of biological molecules may be grouped into the types of polymers they form and the monomers that act as subunits:
Lipids - polymers are diglycerides, triglycerides; monomers are glycerol and fatty acidsProteins - polymers are polypeptides; monomers are amino acidsNucleic Acids - polymers are DNA and RNA; monomers are nucleotides, which are in turn consist of a nitrogenous base, pentose sugar, and phosphate groupCarbohydrates - polymers are polysaccharides and disaccharides*; monomers are monosaccharides (simple sugars)
HOW POLYMERS FORM
Polymerization is the process of covalently bonding the smaller monomers into the polymer.
During polymerization, chemical groups are lost from the monomers so that they may join together. In the case of biopolymers of carbohydrates, this is a dehydration reaction in which water is formed.
*Technically, diglycerides, and triglycerides are not true polymers because they form via dehydration synthesis of smaller molecules, not from the end-to-end linkage of monomers that characterizes true polymerization.
MONOMERS
The word monomer comes from mono- (one) and -mer (part). Monomers are small molecules which may be joined together in a repeating fashion to form more complex molecules called polymers.
Monomers form polymers by forming chemical bonds or binding supramolecularly through a process called polymerization. Sometimes polymers are made from bound groups of monomer subunits (up to a few dozen monomers) called oligomers. A related term is "monomeric protein", which is a protein which bonds to make a multiprotein complex. Monomers are not just building blocks of polymers, but are important molecules in their own right, which do not necessarily form polymers unless the conditions are right.
EXAMPLES OF MONOMERS
Examples of monomers include vinyl chloride (polymerizes into polyvinyl chloride or PVC), glucose (polymerizes into starch, cellulose, laminarin, and glucans), and amino acids (which polymerize into peptides, polypeptides, and proteins). Glucose the most abundant natural monomer, which polymerizes by forming glycosidic bonds.
POLYMERS
The word polymer comes from poly- (many) and -mer (part).
A polymer may be a natural or synthetic macromolecule comprised of repeating units of a smaller molecule (monomers). While many people use the term 'polymer' and 'plastic' interchangeably, polymers are a much larger class of molecules which includes plastics, plus many other materials, such as as cellulose, amber, and natural rubber.
Lower molecular weight compounds may be distinguished by the number of monomeric subunits they contain. The terms dimer, trimer, tetramer, pentamer, hexamer, heptamer, octamer, nonamer, decamer, dodecamer, eicosamer reflects molecules containing 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, and 20 monomer units.
EXAMPLES OF POLYMERS
Examples of polymers include plastics such as polyethylene, silicones such as silly putty, biopolymers such as cellulose and DNA, natural polymers such as rubber and shellac, and many other important macromolecules.
GROUPS OF MONOMERS AND POLYMERS
The classes of biological molecules may be grouped into the types of polymers they form and the monomers that act as subunits:
Lipids - polymers are diglycerides, triglycerides; monomers are glycerol and fatty acidsProteins - polymers are polypeptides; monomers are amino acidsNucleic Acids - polymers are DNA and RNA; monomers are nucleotides, which are in turn consist of a nitrogenous base, pentose sugar, and phosphate groupCarbohydrates - polymers are polysaccharides and disaccharides*; monomers are monosaccharides (simple sugars)
HOW POLYMERS FORM
Polymerization is the process of covalently bonding the smaller monomers into the polymer.
During polymerization, chemical groups are lost from the monomers so that they may join together. In the case of biopolymers of carbohydrates, this is a dehydration reaction in which water is formed.
*Technically, diglycerides, and triglycerides are not true polymers because they form via dehydration synthesis of smaller molecules, not from the end-to-end linkage of monomers that characterizes true polymerization.
Ricky1610:
will you mind giving it a brainlasit answer?
Thankss..but can u give a short answer.? Plz! Its too long
Okay i can help you with it but first you need to help me
Okh tell me..
mark my answer as brainlist :-) thats all
Okh!! How to do that!?
choose the answer long press it
There is nothing happening
ok go to your profile and then my question and then just choose the question she shingle click it that's all
Answered by
2
No it is not important to have the same pattern of monomer
Its just like our faces,some are identical and some are not
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