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10/1/20

[Answer] A 4.0 ◊ 102-nm thick film of kerosene (n = 1.2) is floating on water. White light is normally incident on the film. What is the visible wavelength in air that has a maximum intensity after the light is reflected? Note: the visible wavelength range is 380 nm to 750 nm.

Answer: C) 480 nm




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A 4.0 ◊ 102-nm thick film of kerosene (n = 1.2) is floating on water. White light is normally incident on the film. What is the visible wavelength in air that has a maximum intensity after the light is reflected? Note: the visible wavelength range is 380 nm to 750 nm. A 4.0 × 102-nm thick film of kerosene (n = 1.2) is floating on water. White light is normally incident on the film. What is the visible wavelength in air that has a maximum intensity after the light is reflected? Note: the visible wavelength range is 380 nm to 750 nm . A 4.0 x 102-nm thick film of kerosene ( n = 1.2 ) is floating on water . White light is normally incident on the film . What is the visible wavelength in air that has a maximum intensity after the light is reflected ? Note : the visible wavelength range is 380 nm to 750 nm . Question: A 4.0 X 102 Nm Thick Film Of Kerosene ( n = 1.2 ) Isfloating On Water . White Light Is Normally Incident On Thefilm . Find The Visible Wavelength In Air That Has A Maxintensity After The Light Is Reflected ? ( Visible Lightwavelength Range = 280 Nm To 750 Nm ) A) 380 Nmb) 430 Nmc) 480 Nmd) 530 Nme) 580 Nm Steps/explanation Welcomed. Thanks. A 4.0 102-nm thick film of kerosene (n = 1.2) is floating on water. White light is normally incident on the film. What is the visible wavelength in air that has a maximum intensity after the light is reflected? Note: the visible wavelength range is 380 nm to 750 nm . A 4.0 x 10^2 nm thick film of kerosene ( n =1.20 is floating in water . white light is normally incident on the film . What is the visible wavelength in air that has a maximum intensity after t...

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