methane , propene
It is usefull because of it's abundance and for the fact it can have 4 covalent bonds making it a very stable element in molecules and polymers.
No, the laboratory techniques used for making synthetic gems cannot be directly applied to making synthetic sedimentary rock. Synthetic gems are typically grown using high pressure and high temperature techniques, whereas the formation of sedimentary rock involves deposition and compaction of sediments over long periods of time. Thus, different processes and conditions are required to create synthetic sedimentary rock.
Polymers can be malleable, but it depends on their specific structure and composition. Thermoplastic polymers, for example, can be easily molded and reshaped when heated, exhibiting malleability. In contrast, thermosetting polymers, once cured, are rigid and cannot be reshaped, making them non-malleable. Therefore, the malleability of a polymer varies based on its type and processing conditions.
Polymers that are water-soluble, which means they dissolve in water. These polymers are often used to wrap products such as dishwasher tablets and pouches containing detergent for washing machines.
Polymers serve a variety of purposes, including being used as materials for manufacturing plastics, fibers, rubber, and adhesives. They are also essential in industries like healthcare, construction, and electronics for applications such as drug delivery, insulation, and circuitry. Additionally, polymers can be designed with specific properties to meet diverse needs, making them versatile and valuable materials.
it is a synthetic polymer. depends on how you made it
Thermoplastics are synthetic polymers that can be molded and shaped through the application of heat. Examples include polyethylene, polypropylene, and polystyrene. These materials can be melted and reshaped multiple times, making them versatile for various applications.
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.
Oil polymerization is a process where small molecules in oil combine to form larger molecules, resulting in the formation of polymers. This process can change the properties of polymers by increasing their strength, durability, and heat resistance. Additionally, oil polymerization can also improve the flexibility and chemical resistance of polymers, making them more suitable for various applications.
Polymers are used in our lives as polythene is used in shopping bags, They are used in for different things as-well, for example NYLON in suitcases and bags Polyvinyl-acetate in plastic bottles and utensils There are many Different Polymers The clothes we were are made out of polyester
Synthetic polymers are plastics or any other man-made thing!
It's not really rubber. It could be any combination of polymers and other synthetic materials. `Making life better through chemistry....'
Polymers can be both depending upon which ones you are asking about. Polymer simply means "a chain of identical molecules linked together". Nonrenewable polymers would be plastics made from crude oil; renewable polymers would be cellulose and lignin in tree trunks.
Cracking is a process in which larger hydrocarbon molecules are broken down into smaller ones by heat and pressure, often used to produce gasoline. Polymerization is a process in which smaller molecules, called monomers, are chemically joined together to form larger molecules called polymers, used to create plastics and synthetic materials. In summary, cracking breaks molecules apart while polymerization joins molecules together.
It is usefull because of it's abundance and for the fact it can have 4 covalent bonds making it a very stable element in molecules and polymers.
Amorphous polymers have randomly arranged molecular chains, making them flexible and transparent, while crystalline polymers have ordered molecular chains, making them rigid and opaque.
Lipids provide the structure of membranes and some cell walls and function in energy storage.