1.512 NATURAL EXPONENT 1.510 x-range: 425 - 650 nm y = a exp(-cx) + b 1.508 а: 0.2068 b: 1.495 c: 0.00568 1.506 RMSE: 0.0002107 1.504 1.502 1.500 450 500 550 600 650 Wavelenght (nm) 5. Please explain how does the index of refraction changes with wavelength in at least two complete sentences. You may try describing the shape of your graph. 6. Which would color of light would be bent more – red or blue? Please explain how you know this from your data or previous answer in at least two complete sentences. 7. What would be a practical application of having different colors [wavelengths] of light being bent differently? Please explain your answer in at least two complete sentences Index of rdraction
1.512 NATURAL EXPONENT 1.510 x-range: 425 - 650 nm y = a exp(-cx) + b 1.508 а: 0.2068 b: 1.495 c: 0.00568 1.506 RMSE: 0.0002107 1.504 1.502 1.500 450 500 550 600 650 Wavelenght (nm) 5. Please explain how does the index of refraction changes with wavelength in at least two complete sentences. You may try describing the shape of your graph. 6. Which would color of light would be bent more – red or blue? Please explain how you know this from your data or previous answer in at least two complete sentences. 7. What would be a practical application of having different colors [wavelengths] of light being bent differently? Please explain your answer in at least two complete sentences Index of rdraction
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Chapter1: Units, Trigonometry. And Vectors
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![1. Now we'l! explore how the color [or wavelength] of the light affects its
reflection and refraction.
Keep the angle the same and the same
combination of media as well [air to glass, for example].
2. Then change the different color of the light by
650 nm
dragging it to different colors or wavelengths on the
slide bar, as shown.
3. Choose different wavelengths [or colors] of light and
write down their corresponding index of refraction and refracted angle for
each one in the table below. Be sure to keep the incident angle the same for
all these five different wavelengths!
Run
Wavelength (nm) Index of Refraction Refracted Angle (°)
1
650
1.5
19.5
2
581
1.502
19.5
525
1.505
19.4
4
499
1.507
19.4
461
1.510
19.4
6
425
1.513
19.3](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F0f6e22df-4206-410a-ad9a-0d783181fc37%2F362db145-4d41-433c-9661-aa47b39fcbdd%2Fd0l2vbj_processed.png&w=3840&q=75)
Transcribed Image Text:1. Now we'l! explore how the color [or wavelength] of the light affects its
reflection and refraction.
Keep the angle the same and the same
combination of media as well [air to glass, for example].
2. Then change the different color of the light by
650 nm
dragging it to different colors or wavelengths on the
slide bar, as shown.
3. Choose different wavelengths [or colors] of light and
write down their corresponding index of refraction and refracted angle for
each one in the table below. Be sure to keep the incident angle the same for
all these five different wavelengths!
Run
Wavelength (nm) Index of Refraction Refracted Angle (°)
1
650
1.5
19.5
2
581
1.502
19.5
525
1.505
19.4
4
499
1.507
19.4
461
1.510
19.4
6
425
1.513
19.3
![Index of Refraction Vs. Wavelength (nm)
1.512
NATURAL EXPONENT
1.510
x-range: 425 - 650 nm
y = a exp(-cx) + b
1.508
а: 0.2068
b: 1.495
c: 0.00568
1.506
RMSE: 0.0002107
1.504
1.502
1.500
450
500
550
600
650
ビ @
Wavelenght (nm)
5. Please explain how does the index of refraction changes with wavelength in
at least two complete sentences. You may try describing the shape of your
graph.
6. Which would color of light would be bent more – red or blue? Please
explain how you know this from your data or previous answer in at least two
complete sentences.
7. What would be a practical application of having different colors
[wavelengths] of light being bent differently? Please explain your answer
in at least two complete sentences.
Index of refraction](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F0f6e22df-4206-410a-ad9a-0d783181fc37%2F362db145-4d41-433c-9661-aa47b39fcbdd%2Fdvwise4_processed.png&w=3840&q=75)
Transcribed Image Text:Index of Refraction Vs. Wavelength (nm)
1.512
NATURAL EXPONENT
1.510
x-range: 425 - 650 nm
y = a exp(-cx) + b
1.508
а: 0.2068
b: 1.495
c: 0.00568
1.506
RMSE: 0.0002107
1.504
1.502
1.500
450
500
550
600
650
ビ @
Wavelenght (nm)
5. Please explain how does the index of refraction changes with wavelength in
at least two complete sentences. You may try describing the shape of your
graph.
6. Which would color of light would be bent more – red or blue? Please
explain how you know this from your data or previous answer in at least two
complete sentences.
7. What would be a practical application of having different colors
[wavelengths] of light being bent differently? Please explain your answer
in at least two complete sentences.
Index of refraction
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