These wave phenomena are used in many different ways. Here is a short description of their use and the different applications of them.
The first type of wave phenomenon that I am going to talk about is the refraction of light. Light travels at the speed of light by a special law known as the Einstein’s Theory of relativity. If you were able to change the speed of this light then you would allow light to travel faster and the light would appear to be much sharper.
This is possible if you were able to change the speed of the light, which is actually quite easy if you knew the time and place of the light. You might for example want to send the light back into a tube so that you could see the light pass through it more clearly.
Another use of refraction is to show an object from the side where it is closest to the camera. If you were using a wide angle lens, then you could send the light in front of the camera and so change the angle of the object. You would then be able to show it from behind and have it appear to be further away.
Another use of refraction and wave phenomena is to change an image so that it appears to be sharper at a closer distance. If you were trying to print out a photo in the middle of the ocean, then it would appear to be much clearer when the photo was printed in a lower resolution.
Of course, one of the more important uses of refraction and wave phenomena is in the medical field. In fact, they are used all the time in surgery and are used to give the patient a greater sense of depth.
For example, if the surgeon is operating on someone’s face, he will be able to show the eye as a more accurate image by bending the light rays towards the eye instead of across the eyes. This will allow the surgeon to give the patient a better view of the inside of the eye.
An ultrasound scan is a great example of using refraction and wave phenomena. If you take an ultrasound scan of your abdomen, then you will notice that the waves go in and out more than three times faster than they should. As a result, the images you get will look much clearer than they should.
This is the result of the waves being refracted and altered in order to create images for ultrasound scans. This is actually very useful because it means that doctors can get the best possible image with a smaller amount of ultrasound. energy.
This is also the reason why laser beams do not change the shape or frequency of light as much as light waves would. Laser light beams actually pass by very quickly so that they do not need to bend light waves as much.
There are many other ways that light waves are affected. One of these is when they are reflected off of objects. It is very easy to create illusions with mirrors, for instance, but you could for instance cause light to appear to shine through a sheet of glass by changing the way they are reflecting off of it.
In this case, all you would have to do is change the way the mirror reflects the light. This is done by shining light through different coloured glasses. If you change the colour glass, the light will appear to change, so this can be used in various applications.