A beam of light containing red (660 nm) and violet (410 nm) wavelengths travels from air, through a flat piece of crown glass 2.58 cm thick, and then back to air. (a) If the beam has an angle of incidence of 16.6° in air, determine the angle at which the two colors of light emerge from the crown glass. The index of refraction respectively for red and violet light in crown glass is 1.512 and 1.530. (Enter a number to three decimal places.) red violet (b) Determine the distance separating the red and violet light as it emerges from the glass. cm

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A beam of light containing red (660 nm) and violet (410 nm) wavelengths travels from air, through a flat piece of crown glass
2.58 cm thick, and then back to air.
(a) If the beam has an angle of incidence of 16.6° in air, determine the angle at which the two colors of light emerge from
the crown glass. The index of refraction respectively for red and violet light in crown glass is 1.512 and 1.530. (Enter a
number to three decimal places.)
red
violet
(b) Determine the distance separating the red and violet light as it emerges from the glass.
cm
Transcribed Image Text:A beam of light containing red (660 nm) and violet (410 nm) wavelengths travels from air, through a flat piece of crown glass 2.58 cm thick, and then back to air. (a) If the beam has an angle of incidence of 16.6° in air, determine the angle at which the two colors of light emerge from the crown glass. The index of refraction respectively for red and violet light in crown glass is 1.512 and 1.530. (Enter a number to three decimal places.) red violet (b) Determine the distance separating the red and violet light as it emerges from the glass. cm
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