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Some of the best observations of refracting light comes from Prisms. A Prisms splits visible light into all of the colors of the spectrum allowing an individual to see the different colors that make up a beam of light.
A highly reflective surface, such as polished metal or a mirror, reflects light the best. These surfaces have very smooth surfaces that allow light to bounce off with minimal scattering or absorption, resulting in a strong reflection.
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Snell's laws of refraction.
This is best explained in Glasstones's book The Effects of Nuclear Weapons.
diffraction
The best observation of refraction of light is by observing objects that are in water. By observing objects that are in water, the objects usually appear as if they are not straight.
Some of the best observations of refracting light comes from Prisms. A Prisms splits visible light into all of the colors of the spectrum allowing an individual to see the different colors that make up a beam of light.
They have the same outer electronic configuration, are both in the same group, and are both alkali metals
Difference in 'optical density' of glass and air (or other glass of co-lenses)
Classifying things by observation can best be done using a
A conclusion about an observation is referred to as an inference or infer in short form. This is a method which allows you to reach conclusions based on observations.
Hydrogen, Helium, and a scattering of other elements.
When measuring light scattering it is important to consider the wavelength of light used a bacterial culture. Microorganisms may contain numerous macromolecules that will absorb light, including DNA (254 nm), proteins (280 nm), cytochromes (400-500 nm), and possible cell pigments. When measuring bacteria by light scattering it is best to pick a wavelength where absorption is at a minimum and for most bacterial cultures wavelengths around 600 nm are a good choice. However, the exact wavelength chosen is species specific. It is best to pick a wavelength where absorption is at a minimum.
The movement of water up a tree is best explained by capillary action.
A highly reflective surface, such as polished metal or a mirror, reflects light the best. These surfaces have very smooth surfaces that allow light to bounce off with minimal scattering or absorption, resulting in a strong reflection.
Did you mean the Lamina Fusca Sclera? The problem is the phrasing is awkward with this question so I have no idea what it is you're looking for. That's my best guess from what I can tell.