(c) A double slit experiment is performed with bluish green light of wavelength 512nm. The slits are 1.2mm apart and the screen is 5.4 m from the slits. (1) Calculate the angular position (0) of the third-order bright fringe in degrees. (ii) Find the width of the bright fringes as seen on the screen.
(c) A double slit experiment is performed with bluish green light of wavelength 512nm. The slits are 1.2mm apart and the screen is 5.4 m from the slits. (1) Calculate the angular position (0) of the third-order bright fringe in degrees. (ii) Find the width of the bright fringes as seen on the screen.
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![(c) A double slit experiment is performed with bluish green light of
wavelength 512nm. The slits are 1.2mm apart and the screen is 5.4 m from
the slits.
(1) Calculate the angular position (0) of the third-order bright fringe in
degrees.
(ii) Find the width of the bright fringes as seen on the screen.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F9dac74e0-0021-4190-8913-3dd5f5f57542%2Fdd41bbc4-5e0e-4b5d-a90f-7162a0eaa35b%2Fk1m3juh_processed.jpeg&w=3840&q=75)
Transcribed Image Text:(c) A double slit experiment is performed with bluish green light of
wavelength 512nm. The slits are 1.2mm apart and the screen is 5.4 m from
the slits.
(1) Calculate the angular position (0) of the third-order bright fringe in
degrees.
(ii) Find the width of the bright fringes as seen on the screen.
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