4. Consider the interference pattern from the three slits illustrated below. Assume the openings of the individual slits are the same (<). At what value of 0 is the first principal maximum? (i.e., the wavelets from all three slits are in phase). Assume 1 « d. (3/2)d
4. Consider the interference pattern from the three slits illustrated below. Assume the openings of the individual slits are the same (<). At what value of 0 is the first principal maximum? (i.e., the wavelets from all three slits are in phase). Assume 1 « d. (3/2)d
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![4. Consider the interference pattern from the three slits illustrated below. Assume the openings
of the individual slits are the same (<). At what value of 0 is the first principal maximum?
(i.e., the wavelets from all three slits are in phase). Assume 1 « d.
(3/2)d](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F5bc21d28-e0d4-4dea-a401-99fa4ef7a1de%2Ffd567b79-e6d4-4c77-9a82-18da21dd8fac%2F5u895w.jpeg&w=3840&q=75)
Transcribed Image Text:4. Consider the interference pattern from the three slits illustrated below. Assume the openings
of the individual slits are the same (<). At what value of 0 is the first principal maximum?
(i.e., the wavelets from all three slits are in phase). Assume 1 « d.
(3/2)d
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