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Would an observer near the surface of the water and off to one side see an...
Water has an index of refraction of 1.333. Find the image of a fish that someone...
Water has an index of refraction of 1.333. Find the image of a fish that someone directly above the fish would see using the law of refraction, a protractor and straight edge. Use at least three rays at small angles (20° or less) relative to the normal at the surface. Observer air (n-1.00) Water (n=1.333) Fish O
The index of refraction for fresh water is n water - 1.333. The speed of light...
The index of refraction for fresh water is n water - 1.333. The speed of light in a vacuum is c = 3.00 times 10^8 m/s. What is the speed of light in fresh water? Write the result in terms of 108 m/s. For example if the result is 1.234*108 m/s, just enter 1.234. (keep 3 decimal places) Enter a number x108 m/s Submit (5 attempts remaining) Refraction creates Optical illusion NORMAL line (perpendicular) 2. to water The above figure...
QUESTION If the water is replaced by a transparent fluid with a higher index of refraction,...
QUESTION If the water is replaced by a transparent fluid with a higher index of refraction, the critical angle of the fluid- air boundary is: O smaller. o the same as for water. o larger PRACTICE IT Use the worked example above to help you solve this problem. (a) Find the critical angle for a water-air boundary if the index of refraction of water is 1.33. (b) Use the result of part (a) to predict what a fish will see...
Problem 8: For normal reflection off the thin surface of a bubble made of soapy water...
Problem 8: For normal reflection off the thin surface of a bubble made of soapy water (n=1.333), with air on both sides, what is the thinnest possible thickness that will reflects strongly light of wavelength = 725nm? (6pts)
water interface (the surface of the lake), it is partly reflected back into the air and...
water interface (the surface of the lake), it is partly
reflected back into the air and partly refracted
or transmitted into the water. This explains why on the surface of
a lake sometimes you see the reflection of the surrounding
landscape and other times the underwater vegetation.
These effects on light propagation occur because light travels at
different speeds depending on the medium. The index of refraction
of a material, denoted by n, gives an indication of the speed of...
please help with all questions pictured if possible please ! 6. An object is positioned outside the focal point of a thin convex lens. A student uses the graphical method to predict the locatio...
please help with all questions pictured if possible please !
6. An object is positioned outside the focal point of a thin convex lens. A student uses the graphical method to predict the location of the image of the arrow. As shown in the diagram, she draws principal rays to the lens only. When the rays are completed, which will pass through the point Q, which is the tip of the image of the arrow? (1 point) Rays 1 and...
Assume now that you mistakenly filled the tank up to the blue line in the figure...
Assume now that you mistakenly filled the tank up to the blue line in the figure below. Using your ruler and protractor, draw the reflected and refracted rays for both incoming rays and read from the figure their angles (again, the red ray is 1 and the green one is 2) ang Note: the point of incidence is now where each ray crosses the blue line. The angles from the normal lines in those two points are those calculated in...
Partner: Date Name 11 Snell's Law Introduction When light passes from one material to another it ...
Partner: Date Name 11 Snell's Law Introduction When light passes from one material to another it is always bent away from its original path. This process is known as refraction and the change in direction depends on the change in optical density (or refractive index) of the two materials. A larger change in refractive index results in a larger change in angle between incoming and outgoing light beams. A light beam bends closer to the normal in the material with...
Which statement is false? (A) Light is propagating in water (n=4/3) and strikes a water-air interface...
Which statement is false? (A) Light is propagating in water (n=4/3) and strikes a water-air interface at an angle q to the normal where sin q =5/8; the light will be totally reflected back into the water. (B) Mirages are a result of the fact that the surface of the ground is very hot in the desert. Specifically, the air near the ground is hotter and less dense. Consequently, light rays from a distant object will be refracted and bent...
A light ray in air (n= 1) is incident on a thin film of oil (noil...
A light ray in air (n= 1) is incident on a thin film of oil (noil = 1.60) floating on top of water (nwater = 1.33), as shown below. The wavelength of the incident light in air is Aair = 640 nm. The oil layer has a thickness t = 0.5 um. The ray is assumed to be incident practically along the normal. That is, we won't be worried about angles of reflection or refraction when doing this problem. However,...
Water has an index of refraction of 1.333. Find the image of a fish that someone directly above the fish would see using the law of refraction, a protractor and straight edge. Use at least three rays at small angles (20° or less) relative to the normal at the surface. Observer air (n-1.00) Water (n=1.333) Fish O
The index of refraction for fresh water is n water - 1.333. The speed of light in a vacuum is c = 3.00 times 10^8 m/s. What is the speed of light in fresh water? Write the result in terms of 108 m/s. For example if the result is 1.234*108 m/s, just enter 1.234. (keep 3 decimal places) Enter a number x108 m/s Submit (5 attempts remaining) Refraction creates Optical illusion NORMAL line (perpendicular) 2. to water The above figure...
QUESTION If the water is replaced by a transparent fluid with a higher index of refraction, the critical angle of the fluid- air boundary is: O smaller. o the same as for water. o larger PRACTICE IT Use the worked example above to help you solve this problem. (a) Find the critical angle for a water-air boundary if the index of refraction of water is 1.33. (b) Use the result of part (a) to predict what a fish will see...
Problem 8: For normal reflection off the thin surface of a bubble made of soapy water (n=1.333), with air on both sides, what is the thinnest possible thickness that will reflects strongly light of wavelength = 725nm? (6pts)
water interface (the surface of the lake), it is partly
reflected back into the air and partly refracted
or transmitted into the water. This explains why on the surface of
a lake sometimes you see the reflection of the surrounding
landscape and other times the underwater vegetation.
These effects on light propagation occur because light travels at
different speeds depending on the medium. The index of refraction
of a material, denoted by n, gives an indication of the speed of...
please help with all questions pictured if possible please !
6. An object is positioned outside the focal point of a thin convex lens. A student uses the graphical method to predict the location of the image of the arrow. As shown in the diagram, she draws principal rays to the lens only. When the rays are completed, which will pass through the point Q, which is the tip of the image of the arrow? (1 point) Rays 1 and...
Assume now that you mistakenly filled the tank up to the blue line in the figure below. Using your ruler and protractor, draw the reflected and refracted rays for both incoming rays and read from the figure their angles (again, the red ray is 1 and the green one is 2) ang Note: the point of incidence is now where each ray crosses the blue line. The angles from the normal lines in those two points are those calculated in...
Partner: Date Name 11 Snell's Law Introduction When light passes from one material to another it is always bent away from its original path. This process is known as refraction and the change in direction depends on the change in optical density (or refractive index) of the two materials. A larger change in refractive index results in a larger change in angle between incoming and outgoing light beams. A light beam bends closer to the normal in the material with...
A light ray in air (n= 1) is incident on a thin film of oil (noil = 1.60) floating on top of water (nwater = 1.33), as shown below. The wavelength of the incident light in air is Aair = 640 nm. The oil layer has a thickness t = 0.5 um. The ray is assumed to be incident practically along the normal. That is, we won't be worried about angles of reflection or refraction when doing this problem. However,...
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