One part of the a filter has two slits side-by-side. To measure the width of the slits and the distance between them, you decide to shine a laser and examine the interference pattern on a screen, x distance. - Derive an equation or expression that describes the location of the intensity maxima on a screen resulting from coherent light passing through two thin slits with a definite width and distance between the centers of the slits. Define the symbols used in your derivation using either text or a diagram. - Sketch a graph or diagram showing the light intensity pattern on the screen. - What pattern would you expect to see on the

One part of the a filter has two slits side-by-side. To measure the width of the slits and the distance between them, you decide to shine a laser and examine the interference pattern on a screen, x distance. - Derive an equation or expression that describes the location of the intensity maxima on a screen resulting from coherent light passing through two thin slits with a definite width and distance between the centers of the slits. Define the symbols used in your derivation using either text or a diagram. - Sketch a graph or diagram showing the light intensity pattern on the screen. - What pattern would you expect to see on the

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A flat observation screen is placed at a distance of 4.7 m from a pair of slits. The separation on the screen between the central bright fringe and the first-order bright fringe is 0.035 m. The light illuminating the slits has a wavelength of 495 nm. Determine the slit separation. Number i Units
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