What happens at the boundary with light refraction?

In summary, the light bends when it enters an object because the electric field lines are distorted. There is a small curve around the entry point, but it is usually not visible. There is potential for light to be bent with a small curve, but it is usually not visible.
  • #1
JDMuir
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There is something I have been wondering about with refraction. There have been many explanations of why the light bends. However, it still does not feel intuitive. The question I have is with how light enters the clear object. Is it proven that light indeed enters at an angle that is instantly changed. In other words, does the light bend instantly to the new angle or is there a small curve around the entry point. It would be easier to draw what I am talking about, but I am new to this.

What I am interested in finding is a highly magnified image of the bending of light as it is being refracted. Tried to find a decent image on the web but there is too much other clutter.
There is potential for light to be bent with a very small curve, but there it would be hard to see. Would love to hear of any experiments about this topic. Most likely it is something that was proven long ago.
Thank you,
Jeff
 
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  • #2
If you imagine larger waves it might be easier to picture. For instance, with microwaves entering a block of wax at an angle, we can imagine the electric field lines being distorted by the interface over a depth of something like half a wavelength, before finally arriving at the new angle.
 
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  • #3
Thank you tech99,
This is a very quick turn. Does it matter what the wavelength is? Is it always roughly half of the wavelength?
Also, are you aware of any experiments about this that are available online?
 
  • #4
JDMuir said:
Does it matter what the wavelength is?
No. As long as the wavelength in question can actually propagate through both media, the same thing happens. This link shows the easiest way to think about how it happens. One thing always applies and that is phase continuity across the boundary; you can't suddenly have a jump in the phase of the transmitted wave. So, if the speed in the second medium is less, the wavelength must be less and so the waves emerging from the surface will have to change direction to satisfy this. I suggest you do a search on refraction at an interface and look at all the various versions of the above - perhaps with an animation. It will probably make sense to you when you hit on the one that's appropriate to you. You are very lucky, these days. In the old days, we had just one textbook at home with us and, if that explanation didn't happen to help us, we were just floundering around till (and if) the teacher could put us straight. You now have almost infinite variety of presentations of these basic bits of Physics on the Web. Use it as often as you can..
 
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Related to What happens at the boundary with light refraction?

1. What is light refraction?

Light refraction is the phenomenon of light waves changing direction as they pass through a boundary between two different mediums, such as air and water. This change in direction is caused by a change in the speed of light as it travels through different mediums.

2. How does light refract at a boundary?

When light passes through a boundary between two mediums, it changes direction because of a change in its speed. The amount of refraction depends on the change in density between the two mediums. If the mediums have different densities, the light will bend at an angle towards the normal (an imaginary line perpendicular to the boundary), while if the densities are the same, there will be no refraction.

3. What factors affect light refraction at a boundary?

The main factors that affect light refraction at a boundary are the difference in densities between the two mediums, the angle at which the light enters the boundary, and the wavelength of the light. The greater the difference in densities, the larger the angle of refraction will be. Similarly, the larger the angle of incidence (the angle at which the light enters the boundary), the greater the angle of refraction will be. Different wavelengths of light also refract at different angles, which is why we see a rainbow when white light passes through a prism.

4. How does light refraction relate to the speed of light?

Light travels at different speeds in different mediums. When it passes through a boundary between two mediums with different speeds, it will change direction because of the change in speed. This change in speed is also why light appears to slow down and bend when it passes through materials like water or glass.

5. How is light refraction used in everyday life?

Light refraction is used in many everyday objects and activities. Some common examples include eyeglasses, camera lenses, and binoculars, all of which use lenses to manipulate and focus light through refraction. Light refraction is also used in fiber optics, which are used in telecommunication and internet technology. Additionally, our eyes and brains use light refraction to create images and perceive depth and distance.

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