Question

Visible light travels in air, which has an index of refraction of 1.0. It is incident...

Visible light travels in air, which has an index of refraction of 1.0. It is incident on plastic which is covered by a coating (such that light hits the coating before the plastic). The coating has an index of refraction of 1.6 and is 0.50 microns thick. The ray reflected off the air-coating interface and the ray reflected off the coating-plastic interface experience interference. What frequencies could the light be?

c. The interference is constructive. The plastic used has an index of refraction of 1.5

d. The interference is destructive. The plastic used has an index of refraction of 1.5

Homework Answers

Answer #1

here this case is kind of oil film where middle layer has more refractive index than both medium

here

nair <nplastic   <ncoating

****************************************************************************
Goodluck for exam Comment in case any doubt, will reply for sure..

Know the answer?
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Not the answer you're looking for?
Ask your own homework help question
Similar Questions
Visible light travels in air, which has an index of refraction of 1.0. It is incident...
Visible light travels in air, which has an index of refraction of 1.0. It is incident on plastic which is covered by a coating (such that light hits the coating before the plastic). The coating has an index of refraction of 1.6 and is 0.50 microns thick. The ray reflected off the air-coating interface and the ray reflected off the coating-plastic interface experience interference. What frequencies could the light be? a. The interference is constructive. The plastic used has an...
Visible light travels in air, which has an index of refraction of 1.0. It is incident...
Visible light travels in air, which has an index of refraction of 1.0. It is incident on plastic which is covered by a coating (such that light hits the coating before the plastic). The coating has an index of refraction of 1.6 and is 0.50 microns thick. The ray reflected off the air-coating interface and the ray reflected off the coating-plastic interface experience interference. What frequencies could the light be? a. The interference is constructive. The plastic used has an...
4.a. Find the refracted angle of a light ray travels form air (index of refraction 1.00)...
4.a. Find the refracted angle of a light ray travels form air (index of refraction 1.00) into glass (index of refraction 1.55) at a 40 Deg angle. b. Find the refracted angle of a light ray travels form water (index of refraction 1.33) into air (index of refraction 1.00) at a 30 Deg angle. c. Find the refracted angle of a light ray travels form oil (index of refraction 1.50) into glass (index of refraction 1.55) at a 30 Deg...
A 720 nm thick oil film floats on a plastic plate. White light incident from air...
A 720 nm thick oil film floats on a plastic plate. White light incident from air strikes the film at normal incidence. What visible wavelengths will be constructively reflected from the film? Take the wavelength of visible light in air to be from 400 nm to 700 nm. The index of refraction of the plate is 1.47 and that of the film is 1.60.
A transparent oil with index of refraction n = 1.24 spills on the surface of certain...
A transparent oil with index of refraction n = 1.24 spills on the surface of certain crystal (with unknown index of refraction) with a thickness of 0.423 μm. Normally incident red light (wavelength 700 nm in air) produces a maximum of reflection. (a) What can you tell about the index of diffraction of the crystal? (b) Which wavelength in the visible spectrum (400 nm - 700 nm) would also give constructive interference? And destructive? (c) Which index of refraction should...
A material with an index of refraction of 1.11 is used to coat glass. The index...
A material with an index of refraction of 1.11 is used to coat glass. The index of refraction of glass is 1.5. What is the minimum thickness of the coating that will minimize the reflection of light with a wavelength of 5240 ˚A? answer in units of µm. Please explain how you know it is destructive interference, even though both undergo a 180 phase change.
Red light with wavelength 600[nm] is incident from air (n = 1.0) onto a thin film...
Red light with wavelength 600[nm] is incident from air (n = 1.0) onto a thin film of index n = 1.5. The thin film coats a thick slab of material which has index n = 2.0.   1: For what minimum film thickness would the thin film produce no significant overall reflection due to destructive interference? 2: Did the reflections off of those two interfaces have the same phase change (both 0º or both 180º)? Or did the reflections off of...
White light is shone perpendicularly onto a film of unknown thickness, with index of refraction n=1.5....
White light is shone perpendicularly onto a film of unknown thickness, with index of refraction n=1.5. a) How thick would the film have to be for each of the following colors of light to be absorbed due to destructive interference? Red (f= 4 x 10^14 Hz) Green (f= 5.45 x 10^14 Hz) Blue (f= 6.38 x 10^14 Hz) b) Draw a ray diagram that indicates the path of the red light from part a) into and out of the film...
A light ray travels inside a block of sodium fluoride that has index of refraction n...
A light ray travels inside a block of sodium fluoride that has index of refraction n = 1.33. The ray strikes the vertical wall at the critical angle, totally reflects, and then emerges into the air above the block. What is the angle θ2 at which the ray emerges?
1. Light traveling in air (index of refraction 1.00) falls onto a thin plastic film (index...
1. Light traveling in air (index of refraction 1.00) falls onto a thin plastic film (index of refraction 1.30) of unknown thickness that covers glass (index of refraction 1.50). What minimum non-zero thickness is needed such that wavelengths of 650 nm in air are bright in the reflection? 2. You observe two point sources of light that are spaced 10 cm apart which are each emitting light of wavelength of 590 nm. If the diameter of your pupil is 2...