Part 1 Young's experiment is performed with light from excited helium atoms λ = 550 nm. Fringes are measured carefully on a screen 1.6 m away from the double slit, and the center of the 15th bright fringe is found to be 8 mm from the center of the central bright fringe and at an angle above the central axis. 30 is given by (CONSIDER THAT IS a): SMALL): b) įt 0.008 1.6 0= d = Ay = 1.6 0.008 ] Calculate , in SI units. + c) [t Assume 0 = 0.8°. Find the separation distance d between the two slits of the aperture screen, in SI units. ✪ 01.6 x 550 x 10-⁹ d) .. --Assume d = 3 x 10-3 m. What is the distance Ay between the second and third dark lines of interference pattern on the screen, in SI units?
Part 1 Young's experiment is performed with light from excited helium atoms λ = 550 nm. Fringes are measured carefully on a screen 1.6 m away from the double slit, and the center of the 15th bright fringe is found to be 8 mm from the center of the central bright fringe and at an angle above the central axis. 30 is given by (CONSIDER THAT IS a): SMALL): b) įt 0.008 1.6 0= d = Ay = 1.6 0.008 ] Calculate , in SI units. + c) [t Assume 0 = 0.8°. Find the separation distance d between the two slits of the aperture screen, in SI units. ✪ 01.6 x 550 x 10-⁹ d) .. --Assume d = 3 x 10-3 m. What is the distance Ay between the second and third dark lines of interference pattern on the screen, in SI units?
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![Problem 1
This problem is composed of two independent
parts.
For each part of the below question, fill in the
empty boxes with your answer (YOUR
ANSWER MUST BE ONLY A NUMBER; DO NOT
WRITE UNITS; DO NOT WRITE LETTERS).
Part 1
3
Young's experiment is performed with light from
excited helium atoms λ = 550 nm. Fringes are
measured carefully on a screen 1.6 m away from
the double slit, and the center of the 15th bright
fringe is found to be 8 mm from the center of the
central bright fringe and at an angle above the
central axis.
30 is given by (CONSIDER THAT IS
a):
SMALL):
b) į
0.008
1.6
0 =
d=
Ay =
1.6
0.008
] Calculate , in SI units.
+
c) [t
] Assume 0 = 0.8°. Find the separation
distance d between the two slits of the aperture
screen, in SI units.
◆
01.6 x 550 x 10-⁹
d) i
--Assume d = 3 x 10-3 m. What is the
distance Ay between the second and third dark
lines of interference pattern on the screen, in SI
units?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F88ef514f-41a9-4ed4-8128-7846ce202874%2F32df1ee1-345d-4b7f-88bf-07df69042515%2Feh690d9_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Problem 1
This problem is composed of two independent
parts.
For each part of the below question, fill in the
empty boxes with your answer (YOUR
ANSWER MUST BE ONLY A NUMBER; DO NOT
WRITE UNITS; DO NOT WRITE LETTERS).
Part 1
3
Young's experiment is performed with light from
excited helium atoms λ = 550 nm. Fringes are
measured carefully on a screen 1.6 m away from
the double slit, and the center of the 15th bright
fringe is found to be 8 mm from the center of the
central bright fringe and at an angle above the
central axis.
30 is given by (CONSIDER THAT IS
a):
SMALL):
b) į
0.008
1.6
0 =
d=
Ay =
1.6
0.008
] Calculate , in SI units.
+
c) [t
] Assume 0 = 0.8°. Find the separation
distance d between the two slits of the aperture
screen, in SI units.
◆
01.6 x 550 x 10-⁹
d) i
--Assume d = 3 x 10-3 m. What is the
distance Ay between the second and third dark
lines of interference pattern on the screen, in SI
units?
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