1. White light shines through two slits separated by 22 um and creates an interference pattern on a viewing screen 0.95 m behind the slits. Find the distance from the first red bright fringe (A 700 nm) on one side of the central maximum to the second violet bright fringe (A = 400 nm) on the other side of the central maximum. A. 4.3 mm В. 1.3 сm С. 4.3 сm D. 4.7 cm Е. 6.5 cm toou ense t-900
1. White light shines through two slits separated by 22 um and creates an interference pattern on a viewing screen 0.95 m behind the slits. Find the distance from the first red bright fringe (A 700 nm) on one side of the central maximum to the second violet bright fringe (A = 400 nm) on the other side of the central maximum. A. 4.3 mm В. 1.3 сm С. 4.3 сm D. 4.7 cm Е. 6.5 cm toou ense t-900
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Transcribed Image Text:1. White light shines through two slits separated by 22 um and creates an interference pattern on a viewing
screen 0.95 m behind the slits. Find the distance from the first red bright fringe (A = 700 nm) on one
side of the central maximum to the second violet bright fringe (A = 400 nm) on the other side of the
central maximum.
A. 4.3 mm
В. 1.3 сm
С. 4.3 cm
D. 4.7 cm
Е. 6.5 cm
troon ence
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