Physics, asked by DVRABHIRAM2856, 1 year ago

State the law of refraction which law is called snell's law

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Answered by MahadevanYogeshwari
0
Snell's law (also known as Snell–Descartes law and the law of refraction) is a formulaused to describe the relationship between the angles of incidence and refraction, when referring to light or other waves passing through a boundary between two different isotropic media, such as water, glass, or air.

In optics, the law is used in ray tracing to compute the angles of incidence or refraction, and in experimental optics to find the refractive index of a material. The law is also satisfied in metamaterials, which allow light to be bent "backward" at a negative angle of refraction with a negative refractive index.

Snell's law states that the ratio of the sines of the angles of incidence and refraction is equivalent to the ratio of phase velocities in the two media, or equivalent to the reciprocal of the ratio of the indices of refraction:

{\displaystyle {\frac {\sin \theta _{2}}{\sin \theta _{1}}}={\frac {v_{2}}{v_{1}}}={\frac {n_{1}}{n_{2}}}}

with each {\displaystyle \theta } as the angle measured from the normal of the boundary, {\displaystyle v} as the velocity of light in the respective medium (SI units are meters per second, or m/s), {\displaystyle \lambda } as the wavelength of light in the respective medium and {\displaystyle n} as the refractive index (which is unitless) of the respective medium.

The law follows from Fermat's principle of least time, which in turn follows from the propagation of light as waves.


Answered by Anonymous
0

Answer:

Snell’s law, in optics, a relationship between the path taken by a ray of light in crossing the boundary or surface of separation between two contacting substances and the refractive index of each. This law was discovered in 1621 by the Dutch astronomer and mathematician Willebrord Snell (also called Snellius). The account of Snell’s law went unpublished until its mention by Christiaan Huygens in his treatise on light. In the Figure, n1 and n2 represent the indices of refraction for the two media, and α1 and α2 are the angles of incidence and refraction that the ray R makes with the normal (perpendicular) line NN at the boundary. Snell’s law asserts that n1/n2 = sin α2/sin α1.

Because the ratio n1/n2 is a constant for any given wavelength of light, the ratio of the two sines is also a constant for any angle. Thus, the path of a light ray is bent toward the normal when the ray enters a substance with an index of refraction higher than the one from which it emerges; and because the path of a ray of light is reversible, the ray is bent away from the normal when entering a substance of lower refractive index.

The reason light is refracted in going from one medium to another is shown in the Figure. According to Huygens’ principle, each point on a wave front of light is a source of new wavelets. A parallel beam, consisting of the three rays R1, R2, and R3, is incident on a boundary plane AF separating two media of indices n1 and n2, and it has a plane wave front ABC. In this example, the speed of light is greater in the first medium than in the second (n1 is less than n2). Consequently, according to Huygens’ principle, the radius of the wavelets in the first medium is greater than the radius in the second. By the time a point C on the wave front ABC has moved from C to F on the plane, the point A of the wave front has moved a distance of only AD in the second medium. A plane DEF tangent to the new wavelets represents the new wave front, and lines perpendicular to it represent the paths taken by the rays in the second medium.

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