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stich canes ern 5% nm 4n) 96.13 nm
Sometimes a nonreflective coating is applied to a lens, such as a camera lens. The coating has an index of refraction between the index of air and the index of the lens. The coating cancels the refle...
Sometimes a nonreflective coating is applied to a lens, such as a camera lens. The coating has an index of refraction between the index of air and the index of the lens. The coating cancels the reflections of one particular wavelength of the incident light. Usually, it cancels green-yellow light (λ = 543.0 nm) in the middle of the visible spectrum. (a) Assuming the light is incident perpendicular to the lens surface, what is the minimum thickness of the coating...
2. -/5 points KatzPSE1 36.P.015 My Notes Ask Your Teacher Sometimes a nonreflective coating is applied to a lens, such as a camera lens. The coating has an index of refraction between the index of air and the index of the lens. The coating cancels the reflections of one particular wavelength of the incident light. Usually, it cancels green-yellow light (à - 552.0 nm) in the middle of the visible spectrum. (a) Assuming the light is incident perpendicular to the...
A nonreflective coating (n = 1.39) covers the glass (n = 1.52) of a camera lens. Assuming that the coating prevents reflection of yellow-green light (wavelength in vacuum = 566 nm), determine the minimum nonzero thickness that the coating can have.
A lens with an index of refraction of 1.60 is to be coated with a material (n = 1.44) that will make the lens nonreflecting for yellow-orange light (? = 515 nm) normally incident on the lens. What is the minimum required thickness of the coating? Answer in cm.
8. Visible light has wavelengths between about 1 = 400nm on the violet end of the spectrum to about l = 700nm on the red end. An anti-reflective coating with index ne = 1.2 forms a thin film on the surface of a glass lens with index n, = 1.5. (a) For a wavelength in middle of the visible-wavelength range (which appears green), find the minimum thickness of the coating for dark reflections of light entering the lens from the...
A glass camera lens with an index of refraction of 1.55 is to be coated with a cryolite film (n = 1.3) to decrease the reflections of normally incident green light of wavelength 500 nm. How thick should such a film be?
A thin film of polystyrene is used as an anti-reflective coating for fabulite (known as the substrate). The index of refraction of the polystyrene is 1.49, and the index of refraction of the fabulite is 2.409. What is the least coating thickness that eliminates the reflections at the middle of the visible spectrum ( = 550nm)? Assume that the light is approximately perpendicular to the film surface.
Camera lenses (n = 1.45) are often coated with a thin film of magnesium fluoride (n = 1.36). These non-reflective coatings use destructive interference to reduce unwanted reflections. Find the condition for destructive interference in this case, and calculate the minimum thickness required to give destructive interference for light in the middle of the visible spectrum (yellow-green light, λair = 555 nm).
The lenses of a particular set of binoculars have a coating with index of refraction n= 1.38, and the glass itself has n = 1.52. Part A If the lenses reflect a wavelength of 545 nm the most strongly, what is the minimum thickness of the coating?
(17 %) Problem 3: A thin layer of oil with index of refraction no-l .47 is floating above the water. The index of refraction of water is nw 13. The index of refraction of air is na-1. A light with wavelength λ = 625 nm goes in from the air to oil and water. 25% Part (a) Express the wavelength of the light in the oil, λο, in terms of λ and no. 쇼 25% Part (b) Express the minimum...