Mirrors and lenses under water

In summary, the focal length would not change when using a mirror under water, but it may change when using a back coated mirror due to an offset caused by the difference in refractive indices between the glass and the other medium. However, when using a lens under water, the focal length would change due to refraction and the ratio of refractive indices between the two media. This is also the reason why our eyes cannot focus under water.
  • #1
benw
1
0
I just have 2 questions.

If you use a mirror under water would the focal length change? And same question, but if you use a lens under water would the focal length change?

I was thinking, light rays travel slower in water, so then it difracts away from the normal more than if it was in air, which means the light rays converge at a different point?
 
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  • #2
benw said:
I just have 2 questions.

If you use a mirror under water would the focal length change? And same question, but if you use a lens under water would the focal length change?
No. Yes.

Lenses depend on refraction, which depends on the ratio of refractive indexes of the two media on either side of an interface. So for example, if you have a piece of plastic that has exactly the same refractive index as water, light would not bend at all when going through it under water. In fact, it would be invisible. Also, this is the reason your eyes cannot focus under water.
 
  • #3
To be 100% exact, "No" should read: "no when using front coated mirrors".

In your every day life, mirrors have a reflective layer at the back of a piece of glass. Just to make sure the cleaning lady doesn't scratch it off. Using such a mirror would change the focal length, as the light travels through glass, reflects of the reflective layer and then passes through the glass again. Going from water to glass and vice versa will happen differently in air or in water.

Just for the nitty gritty sake of it.

Greetz,
Leo
 
  • #4
Even with a back coated mirror, I don't think the focal length would change, assuming the mirror glass is a uniform thickness.

The refraction on the way into the glass is canceled out by the refraction on the way back out, so you end up with the angle between the incident and reflected beam being determined just by the the angle of incidence.

Although the reflection angle is unchanged by the refractive media, there is an offset between the point the ray strikes the mirror and the point it leaves from. This offset depends on the thickness of the mirror glass, and the difference in the refractive indices of the glass and the other medium. But I think this offset results in an aberation in the focus of the mirror, rather than a change in its focal length?
 

Related to Mirrors and lenses under water

1. How do mirrors and lenses work underwater?

Mirrors and lenses work differently underwater compared to in air due to the difference in refractive index. Refractive index is a measure of how much light is bent when passing through a medium. In air, the refractive index is close to 1, but in water it is around 1.33. This means that light will bend more when passing through water, causing a distorted image when using mirrors and lenses underwater.

2. Can you see yourself clearly in a mirror underwater?

No, you cannot see yourself clearly in a mirror underwater. As mentioned before, the difference in refractive index causes light to bend more when passing through water, resulting in a distorted image. This distortion makes it difficult to see yourself clearly in a mirror underwater.

3. Are there special mirrors and lenses for underwater use?

Yes, there are special mirrors and lenses designed specifically for underwater use. These mirrors and lenses are made with materials that have a similar refractive index to water, reducing the distortion and allowing for clearer images to be produced.

4. How do you calculate the distortion of light in water?

The distortion of light in water can be calculated using Snell's law, which relates the angle of incidence and the angle of refraction to the refractive indices of the two materials. This law can be used to determine the amount of bending that will occur when light passes through water and hits a mirror or lens.

5. Why are mirrors and lenses used in underwater photography?

Mirrors and lenses are used in underwater photography to help overcome the distortion caused by the difference in refractive index. By using special mirrors and lenses, photographers can capture clearer and more accurate images of the underwater world. These tools also allow for better manipulation of light, making it possible to capture stunning images of marine life and underwater landscapes.

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