(i). Calculate the minimum thickness of a soap bubble film with constructive interference if the film...

A soap bubble with n=1.33 is illuminated by white light and produces constructive interference for a...

A soap bubble with n=1.33 is illuminated by white light and produces constructive interference for a wavelength of 410 nm. The bubble is in air. a. Sketch the situation indicating where the light is reflected and what the indices of refraction are at each reflection. b. Is the reflected wave inverted at the air-to-bubble interface? Explain. c. Is the reflected wave inverted at the bubble-to-air interface? Explain. d. What is the minimum thickness of the bubble to produce constructive interference...

A 641-nm-thick soap film (n = 1.49) in air is illuminated with white light in a...

A 641-nm-thick soap film (n = 1.49) in air is illuminated with white light in a direction perpendicular to the film. For how many different wavelengths in the 300 to 700 nm range is there (a) fully constructive interference and (b) fully destructive interference in the reflected light?

A soap bubble (n = 1.37) having a wall thickness of 124 nm is floating in...

A soap bubble (n = 1.37) having a wall thickness of 124 nm is floating in air. (a) What is the wavelength of the visible light that is most strongly reflected? nm (b) Explain how a bubble of different thickness could also strongly reflect light of this same wavelength. (c) Find the two smallest film thicknesses larger than the one given that can produce strongly reflected light of this same wavelength. nm (smaller thickness) nm (larger thickness)

A soap bubble (n 5 1.33) having a wall thickness of 120 nm is floating in...

A soap bubble (n 5 1.33) having a wall thickness of 120 nm is floating in air. (a) What is the wavelength of the visible light that is most strongly reflected? (b) Explain how a bubble of different thickness could also strongly reflect light of this same wavelength. (c) Find the two smallest film thicknesses larger than the one given that can produce strongly reflected light of this same wavelength.

1. Find the minimum thickness of a soap bubble, in nanometers, that appears red when illuminated...

1. Find the minimum thickness of a soap bubble, in nanometers, that appears red when illuminated by white light perpendicular to its surface. Take the wavelength to be 674 nm, and assume the same index of refraction to be 1.39. 2. At what angle, in degrees, is the second minimum for 487 nm light falling on a single slit of width 1.63 μm ? 3. What is the separation between two slits for which 643 nm orange light has its...

A thin film of soap solution (n = 1.33) has air on either side and is...

A thin film of soap solution (n = 1.33) has air on either side and is illuminated normally with white light. Interference minima are visible in the reflected light only at wavelengths of 320, 360, and 720 nm in air. 1) What is the minimum thickness of the film? (Express your answer to two significant figures.)

A thin film of acetone (n = 1.25) coats a thick glass plate (n=1.50). White light...

A thin film of acetone (n = 1.25) coats a thick glass plate (n=1.50). White light is incident normal to the film. In the reflections, fully destructive interference occurs at 600 nm and fully constructive interference at 675 nm. Calculate the thickness of the acetone film.

8) Calculate the minimum thickness of an oil slick on water that appears green when illuminated...

8) Calculate the minimum thickness of an oil slick on water that appears green when illuminated by white light perpendicular to its surface. Take the strongly reflected green wavelength to be 540 nm. Take the index of refraction of oil to be 1.20 and the index of refraction of water to be n=1.33.

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...

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...