Engineers are testing a new thin-film coating whose index of re-fraction is less than that of glass. They deposit a 560-nm-thick layer on glass, then shine lasers on it. A red laser with a wavelength of 640 nm has no reflection at all, but a violet laser with a wavelength of 400 nm has a maximum reflection. How the coating behaves at other wave- lengths is unknown. What is the coating’s index of refraction?
Engineers are testing a new thin-film coating whose index of re-fraction is less than that of glass. They deposit a 560-nm-thick layer on glass, then shine lasers on it. A red laser with a wavelength of 640 nm has no reflection at all, but a violet laser with a wavelength of 400 nm has a maximum reflection. How the coating behaves at other wave- lengths is unknown. What is the coating’s index of refraction?
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Engineers are testing a new thin-film coating whose index of re-fraction is less than that of glass. They deposit a 560-nm-thick layer on glass, then shine lasers on it. A red laser with a wavelength of 640 nm has no reflection at all, but a violet laser with a wavelength of 400 nm has a maximum reflection. How the coating behaves at other wave- lengths is unknown. What is the coating’s index of refraction?
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