Why Does an Object Appear Larger Underwater?

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Discussion Overview

The discussion centers on the optical phenomenon where an object appears larger when viewed underwater compared to its actual size. Participants explore the underlying principles of optics, particularly the effects of different refractive indices of air and water, and the role of light bending at the interface between these two media.

Discussion Character

  • Exploratory
  • Technical explanation
  • Conceptual clarification
  • Debate/contested

Main Points Raised

  • One participant notes that the difference in refractive properties between air and water causes the image of an object to appear larger when viewed from outside the water.
  • Another participant explains that the index of refraction is related to the speed of light in different media, which affects how light bends at the interface, potentially leading to magnification.
  • A later reply suggests that the magnification effect only occurs under certain conditions, such as when there is a curved interface between the water and air, which acts like a lens.
  • Some participants express familiarity with Snell's law but indicate a lack of understanding regarding Huygens' principle, which is also relevant to the discussion.

Areas of Agreement / Disagreement

Participants generally agree that the refractive properties of air and water play a significant role in the perceived size of objects underwater. However, there is a disagreement regarding the conditions under which this magnification occurs, with some asserting it is not universally applicable.

Contextual Notes

Participants reference specific optical principles such as Snell's law and Huygens' principle, but there are indications of varying levels of understanding and familiarity with these concepts. The discussion does not resolve the complexities of how these principles interact in different scenarios.

shirel
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Hey

I've wanted to know why does the image of an object, which was put in water, seems to be larger than the real object, for a person, who sees it from outside the water.

Thanks :smile:
 
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Welcome to PF, Shirel.
Optics is an extremely complicated field, but the basic answer deals with the difference of the refractive properties of air vs water. The interface where the two meet acts as a lens.
That's all that I've got, but someone more involved with the subject will be along shortly.
 
Thank you very much :)
I'll be glad if someone could give me more specific answer. I know that the refractive index of water is great than the refractive index of air, but I still didn't understand why does it occurs.
 
The index of refraction for a medium is given by

[tex]n_{medium}=\frac{c}{v_{medium}}[/tex]

So the whole situation is related to the fact that the speed of the light waves changes as the waves move between media with different indices of refraction (and the subsequent effects this has on the light waves).

In short: As the light reflected from the object moves from a medium with one index of refraction to that of another, it "bends" at the interface between the two media, either creating the appearance of "shrinking" the image or "blowing it up" depending on the situation.

As to the "why" this happens, you might want to have a look at Snell's law and Hugyens' Principle.

Does that help?
 
hey thank you too, actually I already know Snell's law. I only learned geometrical optics, and therefore I'm not familiar with Huygens–Fresnel principle. However, now I understand it, thank you very much!
 
shirel said:
hey thank you too, actually I already know Snell's law. I only learned geometrical optics, and therefore I'm not familiar with Huygens–Fresnel principle. However, now I understand it, thank you very much!

Ha! My good deed for the day! :biggrin:
 
shirel said:
Hey

I've wanted to know why does the image of an object, which was put in water, seems to be larger than the real object, for a person, who sees it from outside the water.

Thanks :smile:

That is only true sometimes- when there is a curved interface between the water and air (i.e. the sides of a glass). When this happens, the interface acts as a lens with optical power, thus there is magnification.
 

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