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Problem 2 Show that for an index ofrefraction k that D(a) is minimized when sin α-...
(11%) Problem 9: Consider the index of refraction n in the selected media at various wavelengths...
(11%) Problem 9: Consider the index of refraction n in the selected media at various wavelengths as shown on the table. Medium Red Orange Yellow Green Blue Violet (660 nm) (610 nm) (580 nm) (550 nm) (470 nm) (410 nm) Water 1.331 1.332 | 1.333 1.335 1.338 | 1.342 Diamond 2.410 | 1.512 Glass, crown Glass, 1,662 flint Polystyrene 1.488 Quartz | 1.455 fused 2.415 2.4172.426 2.444 2.458 1.514 | 1.518 1.519 1.524 1.530 1,665 | 1667 1.674 1.684 1.698...
(11%) Problem 7: Consider a diamond surrounded by air. Glass, Red Orange Yellow Green Blue Violet...
(11%) Problem 7: Consider a diamond surrounded by air. Glass, Red Orange Yellow Green Blue Violet Medium m (660 nm) (610 nm) (580 nm) (550 nm) (470 nm) (410 nm) Water 1.331 1.332 | 1.333 1.335 1.338 1.342 Diamond 2.410 2.415 2.4172.426 2.444 2.458 1.512 1.514 1.518 1.519 1.524 1.530 1,662 1665 1.667 1.674 1.684 1698 flint Polystyrene 1,488 1.490 | 1.492 1.493 1.499 1.506 Quartz 1.455 1.456 | 1.458 1.459 1.462 | 1.468 fused Otheexpertta.com crown Glass, > A...
Problem 5: Consider the index of refraction n in the selected media at various wavelengths as shown...
Problem 5: Consider the index of
refraction n in the selected media at various wavelengths
as shown on the table.
Part (a) What is the ratio of the speed of red
light to violet light in diamond?
Numeric : A numeric value is
expected and not an expression.
vR/vV =
__________________________________________
Part (b) What is this ratio in polystyrene?
Numeric : A numeric value is
expected and not an expression.
vR/vV =
__________________________________________
Problem 6: A narrow beam of light
containing yellow (580 nm)...
(11%) Problem 6: A beam of light containing orange (610 nm) and violet (410 nm) wavelengths...
(11%) Problem 6: A beam of light containing orange (610 nm) and violet (410 nm) wavelengths passes from fused quartz into water, striking the surface between them at a 49° incident angle with respect to the normal. Medium Red Orange Yellow Green Blue Violet (660 nm) (610 nm) (580 nm) (550 nm) (470 nm) (410 nm) | 1.331 1.332 1.333 | 1.335 | 1.338 1.342 Water Randomized Variables Diamond 2.410 2.415 2.4172.426 2.444 2.458 O= 49° Glass, | 1.512 1514...
Problem 6: A narrow beam of light containing yellow (580 nm) and green (550 nm) wavelengths...
Problem 6: A narrow beam of light
containing yellow (580 nm) and green (550 nm) wavelengths goes from
polystyrene to air, striking the surface at a 25° incident angle
with respect to the normal.
Randomized Variables: Θ = 25
°
What is the angle in degrees between the colors when they emerge
from the polystyrene?
Θg - Θy =_______
Part (b) How far in meters would they have to
travel to be separated by 1.00 mm?
x=_________
Medium Red Orange Yellow...
Math 20 - Calculus I $4.2 - Extra Credit Applied Project: The Calculus of Rainbows Show...
Math 20 - Calculus I $4.2 - Extra Credit Applied Project: The Calculus of Rainbows Show your work! Good luck! (40pts) Rainbows are created when raindrops scatter sunlight. They have fascinated mankind since ancient times and have inspired attempts at scientific explanation since the time of Aristotle. In this project we use the ideas of Descartes and Newton to explain the shape, location, and colors of rainbows. 1. The figure shows a ray of sunlight entering a spherical raindrop at...
(11%) Problem 9: Consider the index of refraction n in the selected media at various wavelengths as shown on the table. Medium Red Orange Yellow Green Blue Violet (660 nm) (610 nm) (580 nm) (550 nm) (470 nm) (410 nm) Water 1.331 1.332 | 1.333 1.335 1.338 | 1.342 Diamond 2.410 | 1.512 Glass, crown Glass, 1,662 flint Polystyrene 1.488 Quartz | 1.455 fused 2.415 2.4172.426 2.444 2.458 1.514 | 1.518 1.519 1.524 1.530 1,665 | 1667 1.674 1.684 1.698...
(11%) Problem 7: Consider a diamond surrounded by air. Glass, Red Orange Yellow Green Blue Violet Medium m (660 nm) (610 nm) (580 nm) (550 nm) (470 nm) (410 nm) Water 1.331 1.332 | 1.333 1.335 1.338 1.342 Diamond 2.410 2.415 2.4172.426 2.444 2.458 1.512 1.514 1.518 1.519 1.524 1.530 1,662 1665 1.667 1.674 1.684 1698 flint Polystyrene 1,488 1.490 | 1.492 1.493 1.499 1.506 Quartz 1.455 1.456 | 1.458 1.459 1.462 | 1.468 fused Otheexpertta.com crown Glass, > A...
Problem 5: Consider the index of
refraction n in the selected media at various wavelengths
as shown on the table.
Part (a) What is the ratio of the speed of red
light to violet light in diamond?
Numeric : A numeric value is
expected and not an expression.
vR/vV =
__________________________________________
Part (b) What is this ratio in polystyrene?
Numeric : A numeric value is
expected and not an expression.
vR/vV =
__________________________________________
Problem 6: A narrow beam of light
containing yellow (580 nm)...
(11%) Problem 6: A beam of light containing orange (610 nm) and violet (410 nm) wavelengths passes from fused quartz into water, striking the surface between them at a 49° incident angle with respect to the normal. Medium Red Orange Yellow Green Blue Violet (660 nm) (610 nm) (580 nm) (550 nm) (470 nm) (410 nm) | 1.331 1.332 1.333 | 1.335 | 1.338 1.342 Water Randomized Variables Diamond 2.410 2.415 2.4172.426 2.444 2.458 O= 49° Glass, | 1.512 1514...
Problem 6: A narrow beam of light
containing yellow (580 nm) and green (550 nm) wavelengths goes from
polystyrene to air, striking the surface at a 25° incident angle
with respect to the normal.
Randomized Variables: Θ = 25
°
What is the angle in degrees between the colors when they emerge
from the polystyrene?
Θg - Θy =_______
Part (b) How far in meters would they have to
travel to be separated by 1.00 mm?
x=_________
Medium Red Orange Yellow...
Math 20 - Calculus I $4.2 - Extra Credit Applied Project: The Calculus of Rainbows Show your work! Good luck! (40pts) Rainbows are created when raindrops scatter sunlight. They have fascinated mankind since ancient times and have inspired attempts at scientific explanation since the time of Aristotle. In this project we use the ideas of Descartes and Newton to explain the shape, location, and colors of rainbows. 1. The figure shows a ray of sunlight entering a spherical raindrop at...
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