A fish in water (refractive index $n$) looks at a bird vertically above in the air. If $y$ is the height of the bird and $x$ is the depth of the fish from the surface, then the distance of the bird as estimated by the fish is
- $x+y \left(1- \frac {1}{n}\right)$
- $x+ny$
- $x+y \left(1+ \frac {1}{n}\right)$
- $y+x \left(1- \frac {1}{n}\right)$
The Correct Option is B
Solution and Explanation
Normal shift, $\,\,\,\,\,d=(n-1) h$
where $h=$ real depth
Here,$\,\,\,\,\,\,\,\,h=y$
Now, apparent depth or the apparent height of the bird from the surface of the water
$=y+(n-1) y=n y$
The total distance of the bird as estimated by fish is $x+n y$.
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Concepts Used:
Ray Optics and Optical Instruments
Optics, deals with the determination of behaviour and the properties of light, along with its interactions with the matter and also with the instruments that are used to detect it.
Ray optics is also known as the geometrical optics and it is a branch of science which describes light propagation.
Reflection is the change in direction of light at an interface in-between two different media so that the wave-front returns into a medium from which it was originated.
Speed of light is the rate at which the light travels in free space.
A phenomenal change in image formed when the light is passed from one medium to another which is called Refraction.
Total Internal Reflection is the reflection of light when the light ray enters into a rarer medium from a denser medium and the angle of incidence is higher than the critical angle of incidence then that light ray will be reflected back to the denser medium.
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