2. (6 points) A predatory Angler Fish has evolved bioluminescence, so that it can make its own light that it uses like a flashlight to help see its prey. A species of jellyfish lives in deep ocean water (so that the only light that reaches it is the light produced by the angler fish). The index of refraction of water is 1.333. The body of the jellyfish is mostly water surrounded by a "thin film" of transparent cells with an index of refraction ncells = 1.19. If the body of the jellyfish is 0.5 μm thick, what color of light should the fish produce to be able to see the jellyfish? water water cells 2(1.50) (0.5X105 m) = (m+11) ~ 2. (6 points) A predatory Angler Fish has evolved bioluminescence, so that it can make its own light that it uses like a flashlight to help see its prey. A species of jellyfish lives in deep ocean water (so that the only light that reaches it is the light produced by the angler fish). The index of refraction of water is 1.333. The body of the jellyfish is mostly water surrounded by a "thin film" of transparent cells with an index of refraction ncells = 1.19. If the body of the jellyfish is 0.5 μm thick, what color of light should the fish produce to be able to see the jellyfish? water water cells 2(1.50) (0.5X105 m) = (m+11) ~
2. (6 points) A predatory Angler Fish has evolved bioluminescence, so that it can make its own light that it uses like a flashlight to help see its prey. A species of jellyfish lives in deep ocean water (so that the only light that reaches it is the light produced by the angler fish). The index of refraction of water is 1.333. The body of the jellyfish is mostly water surrounded by a "thin film" of transparent cells with an index of refraction ncells = 1.19. If the body of the jellyfish is 0.5 μm thick, what color of light should the fish produce to be able to see the jellyfish? water water cells 2(1.50) (0.5X105 m) = (m+11) ~ 2. (6 points) A predatory Angler Fish has evolved bioluminescence, so that it can make its own light that it uses like a flashlight to help see its prey. A species of jellyfish lives in deep ocean water (so that the only light that reaches it is the light produced by the angler fish). The index of refraction of water is 1.333. The body of the jellyfish is mostly water surrounded by a "thin film" of transparent cells with an index of refraction ncells = 1.19. If the body of the jellyfish is 0.5 μm thick, what color of light should the fish produce to be able to see the jellyfish? water water cells 2(1.50) (0.5X105 m) = (m+11) ~
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Transcribed Image Text:2. (6 points) A predatory Angler Fish has evolved bioluminescence, so that it can make its own light that
it uses like a flashlight to help see its prey. A species of jellyfish lives in deep ocean water (so that the
only light that reaches it is the light produced by the angler fish). The index of refraction of water is
1.333. The body of the jellyfish is mostly water surrounded by a "thin film" of transparent cells with an
index of refraction ncells = 1.19. If the body of the jellyfish is 0.5 μm thick, what color of light should
the fish produce to be able to see the jellyfish?
water
water
cells
2(1.50) (0.5X105 m) = (m+11) ~
Transcribed Image Text:2. (6 points) A predatory Angler Fish has evolved bioluminescence, so that it can make its own light that
it uses like a flashlight to help see its prey. A species of jellyfish lives in deep ocean water (so that the
only light that reaches it is the light produced by the angler fish). The index of refraction of water is
1.333. The body of the jellyfish is mostly water surrounded by a "thin film" of transparent cells with an
index of refraction ncells = 1.19. If the body of the jellyfish is 0.5 μm thick, what color of light should
the fish produce to be able to see the jellyfish?
water
water
cells
2(1.50) (0.5X105 m) = (m+11) ~
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