NO!
In a PC, an optical transiever is a computer chip. It works by using fiber optic technology which allows it to communicate between the computer and other devices.
its laid between singapore and marseeile(France).the dist is 10594km
Optical networking hardware entails the various components used in optical technologies. Some of the common hardware include routers, optical fiber, electronic devices and so much more.
it uses optical technology
Optical memory is an early form of computer memory. It involves the use of an optical system for the writing and reading of data to and from a computer's main memory.
The effect of decreasing incubation time on optical density is that optical density decreases. Incubation time and optical density have a proportional relationship.
It's not necessary. If a compound has high optical density, it means that it absorbs more light at the given wavelength than some reference compound. There is no simple relation between density of matter and optical density. Even more I am pretty sure you can find a lot of compounds with lower densities (of matter) but having high optical density.
The optical density of a medium, determined by its refractive index, affects the speed of light passing through it. Light slows down when moving through a medium with a higher optical density. This change in speed is caused by the increased interactions between the light and the atoms in the medium.
In spectrophotometry, optical density and absorbance both measure how much light is absorbed by a sample. However, optical density is a logarithmic measure of the ratio of incident light to transmitted light, while absorbance is a linear measure of the amount of light absorbed by the sample.
I was also looking for the answer to this question. I decided to see what Wikipedia had to say about it, and found this: http://en.wikipedia.org/wiki/Absorbance This article kinda explains how they are related. Good luck!
No, optical medium and optical density are not the same. Optical medium refers to the material through which light propagates, such as air, water, or glass. Optical density, on the other hand, is a measure of how much a material can refract or absorb light, which affects how light passes through it.
The optical density of a diamond is approximately 2.42. This value indicates the extent to which a diamond refracts light, leading to its brilliance and sparkle. The high optical density of diamond contributes to its value as a gemstone.
In an ELISA standard curve, optical density is a measure of the amount of light absorbed by the sample at a specific wavelength. It is used to quantify the amount of target analyte present in the sample based on the relationship between the concentration of the analyte and the corresponding optical density readings on the standard curve. The optical density values are used to determine the concentration of the analyte in the unknown samples by interpolation or extrapolation from the standard curve.
Optical density is a measurement of how much light is absorbed or transmitted by a material. It is often used to quantify the amount of a substance in a solution by measuring the absorbance of light passing through it. A higher optical density indicates more absorption of light.
Optical density is a measure of how much light is absorbed by a substance. It is related to the absorption of light because the higher the optical density, the more light is absorbed by the substance.
The optical density of crown glass varies depending on factors such as composition and thickness. Generally, crown glass has an optical density in the range of 1.5 to 1.6, meaning it is moderately dense and capable of refracting light.
A material's index of refraction is related to its optical density through Snell's Law, which relates the angles of incidence and refraction as light passes through the interface between two materials with different refractive indices. A higher index of refraction usually corresponds to a higher optical density, meaning that light travels slower through the material.