A parallel beam of light containing two wavelengths, A₁ = 400 nm and λ₂ = 650 nm, enters the silicate flint glass of an equilateral prism as shown in the figure below (0 = 45°). At what angle, relative to the normal, does each beam leave the prism? 0₁ from the normal 2 from the normal 60
A parallel beam of light containing two wavelengths, A₁ = 400 nm and λ₂ = 650 nm, enters the silicate flint glass of an equilateral prism as shown in the figure below (0 = 45°). At what angle, relative to the normal, does each beam leave the prism? 0₁ from the normal 2 from the normal 60
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![A parallel beam of light containing two wavelengths, A₁ = 400 nm and ₂ = 650 nm, enters the silicate flint glass of an equilateral prism as shown in the figure below (0 = 45°). At what angle, relative to the
normal, does each beam leave the prism?
0₁ from the normal
82 from the normal](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fbf2c8a2e-cac2-4616-bdc0-efbb4a8119bd%2F642ebb2e-85b4-4630-9074-9c3d9a6d0c54%2F2gyopa_processed.png&w=3840&q=75)
Transcribed Image Text:A parallel beam of light containing two wavelengths, A₁ = 400 nm and ₂ = 650 nm, enters the silicate flint glass of an equilateral prism as shown in the figure below (0 = 45°). At what angle, relative to the
normal, does each beam leave the prism?
0₁ from the normal
82 from the normal
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