Light is reflected if there is a difference in the index of refraction of the two materials, or if the second material is highly conductive (for example, metal).

A: Magnification can affect the quality of an image by introducing aberrations, which are distortions in the image. Higher magnification typically results in more noticeable aberrations.

In the case of specular reflection, the photons just propagate according to Maxwell's equations. A high conductivity material or a boundary between materials with different index of refraction causes a boundary condition that causes the light wave to reflect. There's no absorption of the photons involved.

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A: Magnification refers to the ratio of the image size to the object size, while enlargement refers to the absolute increase in the size of the image.

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So if there's a light beam impinging on a surface, to be absorbed it should first not be (completely) reflected at the surface, and then it is absorbed as it begins to propagate into the material.

Do the atoms within a material absorb the photons and re-emit them in the direction they came back from (similar to atomic emission spectra, but slightly different because this involves hybridization of orbitals), or for some other reason?

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It isn't necessarily. It could also be transmitted and continue to propagate through the new material. (This is how you can see things through a glass window)

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Considering these as variable values: MO=10.0, DI=25.0, DO=15.0, MI=20.0, the calculated value(s) are given in table below

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Light is absorbed if it is propagating in a material and that material has some particles in it that are able to absorb light at that particular wavelength and be promoted into a higher energy state. Particles here could be electrons, but they could also be things like phonons (quantized lattice vibrations).

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Calculation Example: Magnification is a measure of how much larger or smaller an image is compared to the original object. In optics, magnification is calculated using the formula: M = -DI / DO, where M is the magnification, DI is the image distance, and DO is the object distance.

And expanding upon that, why is light absorbed by a material if it is not reflected? Thinking about it like atomic emission spectra, the other light should pass through. I know this is not the case because these are molecules and have many more energy levels that single atoms, but in the case that all of the light is absorbed, why is only some of it reflected? What dictates whether light is absorbed or reflected?