Two glass microscope slides, of length 10 cm, are in contact at one end and separated by a sheet of paper at the other end, which creates a wedge-shaped film of air. The thickness of the paper is t = 92 μm, and the glass has index of refraction n = 1.5. Light with wavelength 0.418 μm shines vertically down on the slides. In the resulting interference pattern, what is the distance separating successive dark fringes when viewed from above?
Two glass microscope slides, of length 10 cm, are in contact at one end and separated by a sheet of paper at the other end, which creates a wedge-shaped film of air. The thickness of the paper is t = 92 μm, and the glass has index of refraction n = 1.5. Light with wavelength 0.418 μm shines vertically down on the slides. In the resulting interference pattern, what is the distance separating successive dark fringes when viewed from above?
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Two glass microscope slides, of length 10 cm, are in contact at one end and separated by a sheet of paper at the other end, which creates a wedge-shaped film of air. The thickness of the paper is t = 92 μm, and the glass has index of refraction n = 1.5. Light with wavelength 0.418 μm shines vertically down on the slides. In the resulting interference pattern, what is the distance separating successive dark fringes when viewed from above?
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