Optical Thin Films (Transmission)
An orange light of 602.2nm is transmitted through an optically thin film (OTF) of oil, separately layered over top of a still surface of water (anti-vibration/shimmy/slew/bounce/rotation/shock-wave/etc'antimotion gear').
keeps it to a minimum amount of liquid motion while doing the experiment), that has been layered over a glass surface.
What are the thinnest first 2 specific thicknesses that this OTF could be, assuming they are specifically some fraction multiple (or integer multiple) of the orange light's wavelength?
[[Assume that the thicknesses being determined are those that the oily OTF layer will optimally allow for bright orange light' transmission through the oil-OTF layer and into the still body of water that lies immediately below this thin oily surface layer, which here is acting as an optical thin film (OTF). ]]
-- You must explain your results with 2 well-labelled relevant physics OTF transmission diagrams.
6. Optical Thin Films (Transmission) An orange light of 602.2 nm istransmitted through an optically thin film (OTF) of oil, separately layered over top of a still surface of water (anti-vibration/shimmy/slew/bounce/rotation/shock-wave/etc'anti- motion gear). keeps it to a minimum amount of liguid motion while doing the experiment),that has been layered over a glasssurface What arethe thinnest first 2 specific thicknesses that this OTF could be,assuming they are specifically some fraction multiple (or integer multiple) of the orange light's wavelength? [[Assume that the thicknesses being determined are those that the oily OTF layer will optimally allow for bright orange light' transmission through the oil-OTF layer and into the still body of water that lies immediately below this thin oily surface layer, which here is acting as an optical thin film(OTF).]] You must explain your results with 2 well-labelled relevant physics OTF transmission diagrams
