Diffraction gratings with 10,000 lines per centimeter are readily available. Suppose you have one, and you send a beam of white light through it to a screen 2.00 m away.What is the distance between the ends of the rainbow of visible light produced on the screen for first-order interference? YR =?Grating0.R.= ?0, = ?X = 2.00 mScreenFigure 27.20 The diffraction grating considered in this example produces a rainbow of colors on a screen a distance x = 2.00 m from thegrating. The distances along the screen are measured perpendicular to the x-direction. In other words, the rainbow pattern extends out ofthe page.

Given: The lines that the diffraction grating have are 10000 per cm. The distance of the screen from…

YR =? Grating 0. R. = ? 0, = ? X = 2.00 m Screen Figure 27.20 The diffraction grating considered in this example produces a rainbow of colors on a screen a distance x = 2.00 m from the grating. The distances along the screen are measured perpendicular to the x-direction. In other words, the rainbow pattern extends out of the page.

YR =? Grating 0. R. = ? 0, = ? X = 2.00 m Screen Figure 27.20 The diffraction grating considered in this example produces a rainbow of colors on a screen a distance x = 2.00 m from the grating. The distances along the screen are measured perpendicular to the x-direction. In other words, the rainbow pattern extends out of the page.

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Question

Diffraction gratings with 10,000 lines per centimeter are readily available. Suppose you have one, and you send a beam of white light through it to a screen 2.00 m away.What is the distance between the ends of the rainbow of visible light produced on the screen for first-order interference?