for non-reflecting coating, what is the thickness of an optical coating of MgF2 whose index refraction...

A coating of methylene iodine (index of refraction 1.737) covers a glass plate having a thickness...

A coating of methylene iodine (index of refraction 1.737) covers a glass plate having a thickness of 5.0 cm and which has an index of refraction of 1.50. Light of wavelength 420 nm is incident upon this configuration from near normal incidence. What are the TWO thinnest coatings of methylene iodine which results in the reflected light being the brightest? please double check your answer

An anti-glaring uniform thin film of magnesium fluoride (MgF2, index of refraction 1.38) covers a crown...

An anti-glaring uniform thin film of magnesium fluoride (MgF2, index of refraction 1.38) covers a crown glass case of refractive index 1.52. This film has a thickness such that it cancels normally incident light of wavelength 525 nm that strikes the film surface from air. The film is thicker than the minimum thickness to achieve this cancellation. Over time, the MgF2 film wears away at a rate of 2.10 nm per year. What is the minimum number of years before...

A material having an index of refraction of 1.35 is used as an antireflective coating on...

A material having an index of refraction of 1.35 is used as an antireflective coating on a piece of glass (n = 1.50). What should be the minimum thickness of this film in order to minimize reflection of 460 nm light? nm If instead a material with an index of refraction of 1.75 is used for the coating, what are the two smallest thicknesses to minimize reflection (in order). nm and nm

A coating of magnesium fluoride MgF2 is often applied to lenses as an anti-reflective coating. It...

A coating of magnesium fluoride MgF2 is often applied to lenses as an anti-reflective coating. It has a refractive index (~ 1.35) between that of air (n=1) and glass (n = 1.5). a) Compare the phase change at the first surface reflection (air to MgF2), to the phase change at the MgF2 to glass surface reflection. Say individually if they would be in phase (no additional path length) or out of phase (add λ/2 path length). Note that in calculating...

17) What should be the thickness of a layer of MgF2 applied on the glass surface...

17) What should be the thickness of a layer of MgF2 applied on the glass surface of a window, to eliminate the reflection of light that has a wavelength in air of 630nm. The light is incident perpendicular to the MgF2 layer. n glass = 1.62, nMgF2 = 1.27 (a) 315nm (b) 157nm (c) 389nm (d) 97nm (e) 124nm

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...

Determine the thickness in microns an antireflection coating for a slab of crown glass (n =...

Determine the thickness in microns an antireflection coating for a slab of crown glass (n = 1.52) that is meant to be used at an angle of incidence of 45°. Use MgF2 (n = 1.37) as a coating material, design for a vacuum wavelength of 582 nm, and assume that the incident index is that of air.

Determine the thickness in microns an antireflection coating for a slab of crown glass (n =...

Determine the thickness in microns an antireflection coating for a slab of crown glass (n = 1.52) that is meant to be used at an angle of incidence of 45°. Use MgF2 (n = 1.37) as a coating material, design for a vacuum wavelength of 512 nm, and assume that the incident index is that of air.

Calculate the minimum film thickness of a MgF2 (n(l) = 1.37) antireflection coating applied to a...

Calculate the minimum film thickness of a MgF2 (n(l) = 1.37) antireflection coating applied to a crown glass (n=1.52) lens immersed in air. Assume normal incidence. Find the required minimum film thickness for the back side of the lens where the incidence medium if glass, and for the front side of the lens where the incident medium is air. Design for a vacuum wave length of 550 nm

ou find that you really do not like a certain shade of color in yellow when...

ou find that you really do not like a certain shade of color in yellow when it reflects off of the glass (n = 1.50) floor in your (expensive) house . So, you decided coat that floor with a material with index of refraction n = 1.38 in order to eliminate light beams of wavelength λ = 550 nm, when is reflected off of the glass and the coating perpendicular to the surface. What is the smallest thickness of the...