Light has the usual attributes of waves, namely frequency, wavelength and speed. Light has the properties of waves. Like ocean waves, light waves have crests and valleys. Reflection and refraction are not the only properties of light waves, but they are two of the most important.
Other properties of light include interference, diffraction, polarization, scattering, and scattering. Like the apparent depth, a more detailed study of each of these properties will give us an idea of the phenomena that we experience every day but that we cannot seem to explain. There are other properties of light waves besides reflection and refraction. Red light has a wavelength of about 700 nanometers (700 x 109 meters), while violet light at the opposite end of the electromagnetic spectrum has a wavelength of about 380 nanometers.
This means that every time you see a beautiful red rose on a sunny day, your eyes perceive a reflection of the rose's red light, which has a wavelength of about 650 nm. This statement tells us that, regardless of the color (or wavelength) of light, its speed is always the same. They can also experience properties of wave motion that are usually associated with other types of waves, such as reflection, refraction and diffraction, to name a few examples. The lake reflects the visible rays of light from the sky (clouds and all that) and sends the reflected rays to the eyes, so you can see the sky from above while looking down.
The large differences between the refractive indices of two materials will result in a large amount of refraction when light passes from one material to another. An important property of light waves is the wavelength, or the distance between a peak of a wave and the next peak. This change in speed also usually causes a change in direction (refraction), and the degree of change depends on the angle of the incoming light. Therefore, many of the properties of light that are relevant to microscopy can be understood in terms of the behavior of light as a wave.
White light, once scattered, gives us all the colors of the visible electromagnetic spectrum, which is what you would see in a rainbow. Different theories about the nature of light were proposed based on the fact that energy can be transferred from one point to another, either by the movement of particles or by the wave movement. Reflection is a property of light by which a ray of light hits the boundary between two media and remains in its original medium.