Rubber is a natural polymers with elastic and plastic type behavior. It is found in nature and extracted from trees. PET (soda bottles) Polyethylene Terephthalate is a synthetic polymer and not found in nature.
Natural polymers are biodegradable, meaning they can be broken down by bacteria and other organisms in the environment. This process helps to reduce the amount of natural polymers going to landfills. Synthetic polymers, on the other hand, are not easily biodegradable and can persist in the environment for a long time, contributing to landfill waste issues.
A semi-synthetic polymer is a material that is partially derived from natural polymers, such as cellulose or proteins, and partially synthesized through chemical processes. This hybrid approach allows for unique properties and applications that combine the best of both natural and synthetic materials.
Natural polymers include cellulose, starch, chitin, proteins (such as collagen and silk), and DNA. These polymers are derived from renewable resources and are biodegradable, making them environmentally friendly alternatives to synthetic polymers.
Silk is natural, not a man-made polymer. The silk is mainly obtained from the cocoons of the Mulberry Silkworm (Bombyx mori). When the caterpillar forms a pupae, it encases itself in a cocoon of fine silk thread. Before the adult moth emerges, the cocoon is steeped in hot water to kill the developing moth inside. The cocoon is then unravelled and is combined with several other silk threads to produce a strong silk thread that can be used to produce silk fabric.
No, Teflon is not biodegradable. It is a synthetic material made from polymers that are not easily broken down by natural processes in the environment.
Synthetic polymers are cheaper than natural polymers. Natural polymers are also less plentiful.
Natural polymers are biodegradable, meaning they can be broken down by bacteria and other organisms in the environment. This process helps to reduce the amount of natural polymers going to landfills. Synthetic polymers, on the other hand, are not easily biodegradable and can persist in the environment for a long time, contributing to landfill waste issues.
For example thermoplastic and thermosetting polymers, natural and synthetic polymers.
Synthetic polymers contain linkages which are present in natural polymers also , for example nylon (a synthetic polymer) contains pep-tide (also called amide) linkage and proteins also contain the same linkage .. considering that protein is a naturally occurring polymer Btw , not sure if this is the only similarity .. :D
Synthetic polymers contain linkages which are present in natural polymers also , for example nylon (a synthetic polymer) contains pep-tide (also called amide) linkage and proteins also contain the same linkage .. considering that protein is a naturally occurring polymer Btw , not sure if this is the only similarity .. :D
Also natural polymers exist.
Natural polymer: shellac, amber, natural rubber, cellulose Synthetic polymers: synthetic rubber, Bakelite, neoprene, nylon, PVC, polystyrene, polyethylene, polypropylene, silicone, etc.
no, both natural and synthetic rubber are polymers
No, cellulose molecules are not examples of synthetic polymers. Cellulose is a natural polymer found in the cell walls of plants and is composed of repeating glucose units. Synthetic polymers, on the other hand, are man-made polymers created through chemical processes.
Nature polymers and synthetic polymers are both large molecules made up of repeating units called monomers. They both have high molecular weights and exhibit similar properties like flexibility, strength, and durability. Additionally, both nature and synthetic polymers can be engineered to have specific properties for various applications.
Acrylic is a synthetic fiber made from polymers derived from petroleum or natural gas. It is not a natural fiber like cotton or wool.
A semi-synthetic polymer is a material that is partially derived from natural polymers, such as cellulose or proteins, and partially synthesized through chemical processes. This hybrid approach allows for unique properties and applications that combine the best of both natural and synthetic materials.