..40 Go Figure 36-45 gives the pa- ß (rad) rameter ß of Eq. 36-20 versus the B₁ sine of the angle in a two-slit inter- ference experiment using light of wavelength 435 nm. The vertical axis scale is set by B, = 80.0 rad. What are (a) the slit separation, (b) the total number of interference maxima (count them on both sides of the pattern's center), (c) the smallest angle for a maxima, and (d) the greatest angle for a minimum? Assume that none of the interference maxima are completely eliminated by a diffraction minimum. 0 0.5 sin 0 1 Figure 36-45 Problem 40.
..40 Go Figure 36-45 gives the pa- ß (rad) rameter ß of Eq. 36-20 versus the B₁ sine of the angle in a two-slit inter- ference experiment using light of wavelength 435 nm. The vertical axis scale is set by B, = 80.0 rad. What are (a) the slit separation, (b) the total number of interference maxima (count them on both sides of the pattern's center), (c) the smallest angle for a maxima, and (d) the greatest angle for a minimum? Assume that none of the interference maxima are completely eliminated by a diffraction minimum. 0 0.5 sin 0 1 Figure 36-45 Problem 40.
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Transcribed Image Text:..40 Go Figure 36-45 gives the pa- ß (rad)
rameter of Eq. 36-20 versus the ßs
sine of the angle in a two-slit inter-
ference experiment using light of
wavelength 435 nm. The vertical axis
scale is set by B, = 80.0 rad. What are
(a) the slit separation, (b) the total
number of interference maxima
(count them on both sides of the
pattern's center), (c) the smallest angle for a maxima, and (d) the
greatest angle for a minimum? Assume that none of the interference
maxima are completely eliminated by a diffraction minimum.
0
sin 0
0.5
1
Figure 36-45 Problem 40.
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