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The chemical inertness of polyethylene arises from its strong carbon-carbon bonds in the polymer chain. These bonds are non-polar and do not readily react with other chemicals, making polyethylene resistant to corrosion and degradation. Additionally, the high molecular weight and lack of functional groups in polyethylene further contribute to its chemical inertness.
What else can I help you with?
What does ethene have that polyethene does not?
double bonds
What is the Name of the small molecule used to make polythene?
Poly(methylene) is the IUPAC name of polyethene. But IUPAC also suggest polyethene to be a correct usage.
Is the formation of polyethylene from ethylene a chemical reaction?
Polyethene is created through the polymerization of ethene. Under the right conditions of temperature, pressure and catalysis, the double bond of the ethene monomer opens up and many monomers link up to form long chains. Polyethene manufacturing processes are usually categorized into "high pressure" and "low pressure" operations. The former is generally recognized as producing conventional low density polyethene (LDPE) while the latter makes high density (HDPE) polyethene. The difference between these polyethene processes is that LDPE is formed at 1000 - 3000 bar and 80 - 300 degrees C in the presence of minute quantities of oxygen, and HDPE is formed at 10 - 80 bar and 70 - 300 degrees C in the presence of an aluminium-based catalyst.
What is polyethene used to make?
plastic bags such as sandwich bags
Why fluoro compounds show inertness?
Fluoro compounds exhibit inertness primarily due to the strong carbon-fluorine (C-F) bond, which is one of the strongest covalent bonds in organic chemistry. The high electronegativity of fluorine leads to a strong polar character, making the C-F bond less reactive towards nucleophiles and electrophiles. Additionally, fluorine's small size and ability to stabilize negative charge contribute to the overall stability of fluoro compounds, further enhancing their inertness in various chemical reactions.
Is polythene a chemical?
Polyethene (polythene, polyethylene) is a chemical product.
How does chemical inertness increase the usefulness of the materials?
These materials can be used in corrosive environments.
Is inertness of granite counter top a physical or chemical property?
The inertness of a granite countertop is a physical property because it describes its behavior without changing its chemical composition. In this case, the countertop's resistance to chemical reactions is due to its physical structure and composition, rather than any chemical interactions.
What are the uses of polyethene?
Polyethene can be used to make carry bags. Many apparel stores pack the newly bought items in Polyethene bags for the customers to transport them easily.
Is polyethene a hydrocarbon?
No
What is the structural formula for polyethene?
Polyethene seems to be a variant spelling of polyethylene, or polythene. I have include the Wikipedia link.
Who invented polythene?
polyethene was invented by accident in weeeeeeeee!! hello there little one (: polyethene was invented by accident in weeeeeeeee!! hello there little one (: polyethene was invented by accident in weeeeeeeee!! hello there little one (:
What is polyethene made from?
it is a polymer of ethene
What does ethene have that polyethene does not?
double bonds
What is the intermolecular force of teflon?
The intermolecular force of Teflon is primarily van der Waals forces, specifically London dispersion forces. These forces arise from temporary dipoles formed by the movement of electrons in the molecules of Teflon. The strength of these intermolecular forces allows Teflon to exhibit properties such as low friction and chemical inertness.
Why is polyethene flexible?
Polyethene is flexible due to the two covalent bonds between its carbon atoms. These double bonds allow it to be flexible.
What is thermal inertness?
Thermal inertness refers to a material's resistance to changes in temperature, meaning it does not easily conduct or transfer heat. Materials with high thermal inertness require more time and energy to heat up or cool down compared to materials with low thermal inertness. This property can be important for applications where temperature stability is crucial.
