Because photon gravitation differs to the light travel...Ps. future technologies will be used to capture photon gravitation with the precision of laser and crystal mirrors. This helps to accelarate present time or slowdown time captured in mirrors view.
Due to the fact that different substances possess different retention time (they do differ from their size,shalpe,mol wt etc.)
Paper chromatography is a method used for separating out different components of solution. The most common classroom use for it is to visually see the different colored dyes in ink because the different colors will travel different lengths across the paper.
In chromatography, pigments can be separated based on their differing affinities for the mobile and stationary phases. The different pigments will travel at different rates through the chromatography system, allowing for their separation and identification based on their unique colors and positions within the chromatogram. Pigments play a key role in chromatography as they provide a visible representation of the separation process.
yes they do
Different Colors Of Light Travel At Different Speeds.
Colors in dye can be separated using techniques such as chromatography, where the dye is dissolved in a solvent and allowed to move along a strip of paper. As the different colors in the dye mixture travel at different rates, they get separated on the paper strip, allowing for individual colors to be identified.
Yes colors can travel through vaccum as colors are formed due to light of different wavelengths.As light can travel through vaccum so do colors.
When light of different colors enters a glass prism, it bends or refracts at different angles due to their varying wavelengths. This causes the colors to separate and travel at different speeds, creating a spectrum of colors.
Pigments travel at different rates in chromatography because of differences in their molecular size, polarity, and solubility in the solvent. Smaller, less polar pigments will travel further up the chromatography paper because they are less attracted to the stationary phase and can move more easily with the mobile phase.
Chromatography separates chemicals based on their affinity for a stationary phase and a mobile phase, allowing them to travel at different rates. Different types of chromatography like gas chromatography, liquid chromatography, and thin-layer chromatography utilize different mechanisms such as adsorption, partition, ion exchange, and size exclusion to separate the components in a mixture. By adjusting the conditions like solvent polarity, temperature, and column material, chromatography can effectively separate complex mixtures into individual components.
different dyes travel with different speed/rates on filter paper in paper chromatography as they have nothing to do with the filter paper as it is the stationary medium while the rates depends upon the interaction between the solute i.e., dyes and the mobile phase i.e., the solvent.
In layer chromatography, a mixture of substances is separated as it moves along a stationary phase, which can be a solid or liquid, due to differences in the affinities of the components for the stationary and mobile phases. The components travel through the stationary phase at different rates, leading to their separation based on their interactions with the stationary phase. By analyzing the distances traveled by the components, their presence in the mixture can be detected.