(i) The left figure shows a typical setup of Young's doble slit interference experiment. Coherent light wave goes through the double slits. The wave length of the incident light in vacuum is given by A n = 1.4 The distance of the slit holes is d. The distance between the slits and the screen is D, which is much larger than d The slits and light source are very tall in the direction (z- direction) perpendicular to the plane shown in the graph. So, you do not have to take into account the z dependence. y When the entire area between the slits and the screen is vacuum (or air), the first bright line above the center bright line appears at y = DA/d. D>>d When the region of a half the distance D is replaced by a glass with the refractive index n = 1.4, as shown in the left figure, give the location yof the first bright line adjacent to the bright line at the center. Attach reasonings / derivation. -D
(i) The left figure shows a typical setup of Young's doble slit interference experiment. Coherent light wave goes through the double slits. The wave length of the incident light in vacuum is given by A n = 1.4 The distance of the slit holes is d. The distance between the slits and the screen is D, which is much larger than d The slits and light source are very tall in the direction (z- direction) perpendicular to the plane shown in the graph. So, you do not have to take into account the z dependence. y When the entire area between the slits and the screen is vacuum (or air), the first bright line above the center bright line appears at y = DA/d. D>>d When the region of a half the distance D is replaced by a glass with the refractive index n = 1.4, as shown in the left figure, give the location yof the first bright line adjacent to the bright line at the center. Attach reasonings / derivation. -D
College Physics
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Chapter1: Units, Trigonometry. And Vectors
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Location of first bright line adjacent to the bright line at the center?
Transcribed Image Text:(i) The left figure shows a typical setup of Young's doble
slit interference experiment. Coherent light wave goes
through the double slits. The wave length of the incident
light in vacuum is given by A
n = 1.4
The distance of the slit holes is d.
The distance between the slits and the screen is D, which is
much larger than d
The slits and light source are very tall in the direction (z-
direction) perpendicular to the plane shown in the graph.
So, you do not have to take into account the z dependence.
y
When the entire area between the slits and the screen is
vacuum (or air), the first bright line above the center bright
line appears at y = DA/d.
D>d
When the region of a half the distance D is replaced by a
glass with the refractive index n = 1.4, as shown in the left
figure, give the location yof the first bright line adjacent to
the bright line at the center. Attach reasonings / derivation.
D
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