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Solve the Problem $\theta _ { \mathrm { r } }$

question 248

Essay

Solve the problem.
-When light travels from one medium to another-from air to water, for instance-it changes direction. (This is why a pencil, partially submerged in water, looks as though it is bent.) The angle of incidence $\theta _ { \mathrm { r } }$ is the angle in the first medium; the angle of refraction $\theta _ { \mathrm { r } }$ is the second medium. (See illustration.) Each medium has an index of refraction $- \mathrm { n } _ { \mathrm { i } }$ and $\mathrm { n } _ { \mathrm { r } }$ , respectively -which can be found in tables. Snell's law relates these quantities in the forr
$\mathrm { n } _ { \mathrm { i } } \sin \theta _ { \mathrm { i } } = \mathrm { n } _ { \mathrm { r } } \sin \theta _ { \mathrm { r } }$
Solving for $\theta _ { \mathbf { r } }$ , we obtain
$\theta _ { \mathrm { r } } = \sin ^ { - 1 } \left( \frac { \mathrm { n } _ { \mathrm { i } } } { \mathrm { n } _ { \mathrm { r } } } \sin \theta _ { \mathrm { i } } \right)$
Find $\theta _ { \mathrm { r } }$ for air $\left( \mathrm { n } _ { \mathrm { i } } = 1.0003 \right)$ , methylene iodide $\left( \mathrm { n } _ { \mathrm { r } } = 1.74 \right)$ , and $\theta _ { \mathrm { i } } = 14.7 ^ { \circ }$ .

$Solve the problem. -When light travels from one medium to another-from air to water, for instance-it changes direction. (This is why a pencil, partially submerged in water, looks as though it is bent.) The angle of incidence \theta _ { \mathrm { r } } is the angle in the first medium; the angle of refraction \theta _ { \mathrm { r } } is the second medium. (See illustration.) Each medium has an index of refraction - \mathrm { n } _ { \mathrm { i } } and \mathrm { n } _ { \mathrm { r } } , respectively -which can be found in tables. Snell's law relates these quantities in the forr \mathrm { n } _ { \mathrm { i } } \sin \theta _ { \mathrm { i } } = \mathrm { n } _ { \mathrm { r } } \sin \theta _ { \mathrm { r } } Solving for \theta _ { \mathbf { r } } , we obtain \theta _ { \mathrm { r } } = \sin ^ { - 1 } \left( \frac { \mathrm { n } _ { \mathrm { i } } } { \mathrm { n } _ { \mathrm { r } } } \sin \theta _ { \mathrm { i } } \right) Find \theta _ { \mathrm { r } } for air \left( \mathrm { n } _ { \mathrm { i } } = 1.0003 \right) , methylene iodide \left( \mathrm { n } _ { \mathrm { r } } = 1.74 \right) , and \theta _ { \mathrm { i } } = 14.7 ^ { \circ } .$

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Solve the Problem θr\theta _ { \mathrm { r } }θr​

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Solve the Problem $\theta _ { \mathrm { r } }$