A light, with wavelength of 1 = 550 nm, passes through a slit and shines on a screen that is at a distance of L = 0.30 m. The slit has a width of D = 4.0x10-6 m. Calculate the width Y of the central bright fringe, see Figure 3.1. first dark fringe D central bright fringe Y first dark fringe -L- Figure 3.1
A light, with wavelength of 1 = 550 nm, passes through a slit and shines on a screen that is at a distance of L = 0.30 m. The slit has a width of D = 4.0x10-6 m. Calculate the width Y of the central bright fringe, see Figure 3.1. first dark fringe D central bright fringe Y first dark fringe -L- Figure 3.1
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![A light, with wavelength of 2 = 550 nm, passes through a slit and shines on a screen
that is at a distance of L = 0.30 m. The slit has a width of D = 4.0×10-6 m. Calculate
the width Y of the central bright fringe, see Figure 3.1.
first dark fringe
D
central bright fringe
Y
first dark fringe
-L-
Figure 3.1](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F26b25fd8-f192-4532-8b86-7d66abba3de5%2F18190eb7-3dbb-4b73-bf59-cb4140aca0be%2F54ad3qd_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A light, with wavelength of 2 = 550 nm, passes through a slit and shines on a screen
that is at a distance of L = 0.30 m. The slit has a width of D = 4.0×10-6 m. Calculate
the width Y of the central bright fringe, see Figure 3.1.
first dark fringe
D
central bright fringe
Y
first dark fringe
-L-
Figure 3.1
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