The skin of a soap bubble has a thickness of 90 nm and an index of refraction of n = 1.3. On either side of the bubble's skin is air (n = 1).
Use the following table to determine what color the bubble will appear to be when light strikes perpendicular to the surface.
A:Blue
B:Green
C:Red
D:Orange
E:Yellow
-An explanation would be great!
The skin of a soap bubble has a thickness of 90 nm and an index of...
Question 17 A soap bubble with index of refraction n 1.3 and a thickness of 325nm. When illuminated by white light and viewed directly (perpendicular to the surface), what wavelength in the visible spectrum (375nm to 725nm) will be strongly reflected? Enter answer here 63 nm 63nm Answer 1 of 5 attempts used CHECK ANSWER
#14 Thin Soap Films: Maximizing Reflection A soap bubble consists of a film with an index of refraction of 1.50, with air on either side of the film. What is the minimum thickness of the film such that red light with a wavelength of 700 nm is reflected with the greatest intensity? O A. 117 nm B. 233 nm O C. 350 nm O D. 700 nm #15 Thin Soap Films: Maximizing Reflection A soap bubble consists of a film...
A soap bubble is suspended in air. 1) If the thickness of the soap is 545 nm and both blue light (500 nm in air) and red light (700 nm in air) are not observed to reflect from the soap film, what is the index of refraction of the thin film? (Express your answer to three significant figures.) Submit
A soap bubble with walls 380 nm thick floats in air. If this bubble is illuminated perpendicularly with sunlight, what wavelength of visible light will be absent in the reflected light? Assume that the index of refraction of the soap film is 1.33. What color will be absent in the reflected light?
A soap bubble with walls 382 nm thick floats in air. Part A If this bubble is illuminated perpendicularly with sunlight, what wavelength of visible light will be absent in the reflected light? Assume that the index of refraction of the soap film is 1.33. Part B What color will be absent in the reflected light?
Monochromatic light of wavelength 560 nm strikes a thin layer of soap, which has an index of refraction of 1.4 and rests on a bathroom tile. (a) If the layer of soap is 700 nm thick, does constructive interference, destructive interference, or partial interference occur when the light strikes the surface close to the normal? (b) What is the minimum thickness of soap that would result in no (or minimal) reflection from the surface? (100 nm)
A soap bubble with walls 421 nm thick floats in air. 1) If this bubble is illuminated perpendicularly with sunlight, what wavelength of visible light will be absent in the reflected light? Assume that the index of refraction of the soap film is 1.33.
Consider a soap bubble ( both side of film is air) of thickness d and n = 1.5. Light of λ = 600 nm is incident on the bubble. Which values of d produce destructive interference?
Problem 10: A soap bubble is 115 nm thick and illuminated by white light incident perpendicular to its surface. What is the longest wavelength in him which is constructively reflected, assuming soap has the same index of refraction as water ( 1 Numerie : A numeric value is expected and not an expression 1.33)?
A soap bubble film (n=1.42) of thickness 106 nm results in a constructive interference in the reflected light if this film is illuminated by a beam of light with a wavelength of 601 nm. What are the next three thicknesses of this film that will also result in a constructive interference?