In polymer chemistry, the chain length of polyethylene polymer, , is the total amount of molecules attached to a lengthening polymer chain during polymerization, with each molecule being equally stressed as the length increases from zero to one. Thus, the overall length of the chain increases as polymer chains are lengthened. The length of a polyethylene polymer chain is determined by the formulation of the polymer, chemical bonding of the monomer molecules to the complementary base, and the reaction between the base and the monomer molecules. There are two general forms of the polymer chain, the inter-atomic polymer chains, and the end-polymerpolymer chains.
Polymer chain length has important effects on various polymer chain growth processes. For instance, in polymerization, when a two-part polymer is introduced into a solution (usually by heating), the polymer chain length is dependent upon the chemical properties of both the starting and ending mixtures. At high temperatures, it is possible for a two-part polymer chain length to increase from a simple straight chain to a complex two-part polymer chain. In addition to being able to change the chain length, different solvents and surfactants may also have an effect on the chain length. However, in terms of materials use in manufacturing, the desired chain length is typically based on cost-to-manufacturers and time-to-market.
Because of its importance to the polymer chain growth, understanding the relationship between chain length and polymer production is crucial to polymer manufacturer. To begin, it is important to note that the polymer chain length is directly related to the number of polymer chain growing or polymerizing events per linear molecule. The more chain-growing polymerization events per molecule, the shorter the polymer chain length. Conversely, the more polymerizing events per molecule, the longer the polymer chain length. For instance, the growth rate of polymer chain growth polymerizes and lengthens at approximately ten percent per molecule; however, when the polymer chain length increases to fifteen percent, polymer chain length is four times greater than the initial polymerization length.
Therefore, if we are interested in determining the number of inches in the overall side wall thickness, we would need to determine the overall length of the rear surface of the rear face of the wheel (if applicable). We would then multiply the total length by the number of inches to determine the rear side face thickness. This equation is only accurate to the extent that the rear side is measured in inches. Other measurements such as the centerline depth and overall crown length will not alter the equation significantly.
Next, we will consider the relationship between neckline depth and the overall chain length. As previously stated, necklines have an impact on the overall chain length. A deep neckline will shorten the overall length of the necklace and will minimize the number of over-all hangings. Conversely, a low profile neckline will increase the number of hangings and will shorten the overall neckline length. Therefore, to obtain the answer to “what is my necklace length,” it is important to know the difference between these two types of necklines.
To understand the relationship between neckline depths and overall chain lengths, it is helpful to understand the geometric shape of a necklace. There are six planes of which the necklace can be constructed; the first three planes are horizontal, the middle plane is vertical, and the last plane is inclined with respect to the other planes. Each plane has a different overall circumference that can be expressed as a ratio. Therefore, a necklace with a shallow plane of necklace length and a vertical chain length will have a smaller circumference than a necklace with a long vertical plane and a much shorter overall circumference.
The relationship between neckline depth and chain length is also determined by the process of polymerization. When a woman wears her necklace with pearls, the larger the pearls, the longer the chain needs to be. Conversely, when she wears her necklace with crystals, the smaller the crystal, the longer the chain needs to be. This is because the smaller the crystal, the smaller the number of pearls that need to be used for the same overall circumference. Therefore, the larger the number of pearls that a woman has in her necklace, the longer her chains, and therefore the higher her average degree of chain length.
To determine the relationship between neckline depth and polymer chains, it is necessary to understand the concept of kinetic chain length and polymer chain growth. Kinetic chain length is the amount of time a molecule is within a given energy level, such as light, water, or heat. At any given time, molecules are confined in an area by the molecular bonds holding them together. The number of molecules in this area is referred to as its density.