Understanding Cohesion (Chemistry)

Understanding Cohesion (Chemistry)Cohesion is the ability of two objects to stay in contact and stay connected. If this happens, then the objects must be able to move and or turn at the same speed when they meet. Without cohesion, there is no movement or turning of objects or the entire atmosphere is not in motion.Commonly known as kinetic cohesion, this type of cohesion usually results from bonding of two different particles of different densities but both types of union type are present. In the former, one particle is much more dense than the other, while in the latter, both are equally dense. However, cohesion is a complex concept that it can be any mixture of these different types of union.Generally, one would consider cohesion as movement of one substance towards another substance, or the other way around. Cohesion between two materials can be an ideal solution for some people and for others. Sometimes, one or more particles bind together in some way, other times the different p article particles don't do anything. But either way, the bond will cause movement or some other type of movement.So if we speak of chemical union or chemical motion then the physical and chemical properties would be involved. All of this includes: molecular alignment, bonding arrangement. The movement itself is what makes something union like a cork between two bottles, or sometimes a substance moving in a container. When the fluid moves, the fluid molecules are moving along, moving in one direction with their surrounding atoms, and forming bonds to these atoms.The major factor in the cohesion is the temperature of the substance. In this case, it's possible to observe two forms of cohesion in the same material. In colder temperature, molecules tend to adhere to each other, which produces a more cohesive mix, while in warmer temperatures, molecules are in better coordination with their surroundings, which creates a less cohesive mix. Scientists have actually created frictionless liqu ids with the help of thermal barriers, so far, such methods are still not successful. These barrier-based experiments have not been successful because their scientific objective of creating frictionless liquids has not been achieved. This lack of success is made possible by the scientists' inability to explain the nature of cohesion. Some people think that cohesion is the result of motion, when in fact, the cohesion isn't caused by movement, rather it is caused by the interaction of the surrounding materials.But, we should keep in mind that if we can understand how cohesion works, then we could even change the way we think about chemical and physical forces and make the common conception of chemical and physical forces come true. Chemical and physical laws are believed to be the basis of chemical reactions and chemical processes, thus, for that matter, the nature of cohesion could be explained, but so far, no results have been achieved.