Sunlight is not made of molecules and therefore has no "molecular structure."
Sunlight can induce certain types of chemical changes in molecules that it hits; however, these are not "random" but fall into certain well-defined classes.
No. Light is not made of molecules and has no molecular structure to change.
In the context of PPR (Polypropylene Random Copolymer) pipes, "random" refers to the molecular structure of the polypropylene used in the pipes. Unlike other forms of polypropylene that have a more uniform structure, random copolymers have a random arrangement of different monomers, which enhances their flexibility, impact resistance, and thermal stability. This random structure allows PPR pipes to maintain their performance in various temperature and pressure conditions, making them suitable for hot and cold water applications.
an amorphous substance is something that has a random molecular formation in it's natural form (when solidified). the opposite would be semi-cristaline which has random molecular structure when heated but returns to an organised unifom state when solidified. example. certain polymers
Polyamide has a more organized molecular structure with stronger intermolecular forces, leading to higher strength compared to polyethylene, which has a more random molecular structure with weaker intermolecular forces. Additionally, the presence of amide bonds in polyamide adds to its strength by forming a network of strong covalent bonds.
Glass breaks into random pieces due to its molecular structure. When a force is applied to glass, the bonds between the molecules are disrupted, causing the glass to shatter into irregular fragments. This is because glass lacks a crystalline structure, unlike other materials such as metals, which break in a more predictable manner.
Random molecular motion refers to the constant, unpredictable movement of molecules due to their thermal energy. This motion occurs in all substances, and the speed and direction of the molecules change rapidly as they collide with each other and their surroundings. It is this random motion that contributes to various macroscopic properties of matter, such as diffusion and viscosity.
Teflon is an amorphous solid. It does not have a regular, repeating crystal structure like crystalline solids. Instead, its molecular arrangement is more random and disordered.
This phenomenon is the molecular diffusion.
The difference between atomic structures and crystal structures is that in atomic structures, atom patterns are mismatched, random, and disordered unlike crystal structures in which atoms are positioned in orderly and repeated patterns.For example to crystalline structure; BCC FCC and HCP
random people
Brownian motion describes the disorder of random molecular motion, which is caused by the collision of molecules in a fluid. This phenomenon was first observed by botanist Robert Brown in 1827.
A polycrystalline structure contain crystals with a random orientation.