Chapter 27, Problem 15 provides some pertinent background information for this problem. A transparent film (n 1.31) is deposited on a glass plate (n-1.52) to form a nonreflective coating. The film ha...
Chapter 27, Problem 13 A nonreflective coating (n 1.32) covers the glass (n 1.52) of a camera lens. Assuming that the coating prevents reflection of a specific wavelength (Avacuum = 609 nm), determine the minimum nonzero thickness that the coating can have. Number Units 504
A nonreflective coating (n = 1.39) covers the glass (n = 1.52) of a camera lens. Assuming that the coating prevents reflection of yellow-green light (wavelength in vacuum = 566 nm), determine the minimum nonzero thickness that the coating can have.
A transparent film (n=1.3) is deposited on a glass lens (n=1.5) to form a reflective coating. What is the minimum thickness that would maximize reflection of light with a wavelength of 500.0 nm in air? and the answer 96 nm is incorrect
Chapter 35, Problem 035 we wish to coat flat glass (n = 1.50) with a transparent material (n = 1.32) so that reflection of light at wavelength 539 nm is eliminated by interference, what minimum thickness can the coating have to do this? Number the tolerance is +/-9% Units
Chapter 27, Problem 54 GO Your answer is partially correct. Try again. A soap film (n = 1.33) is 464 nm thick and lies on a glass plate (n = 1.52). Sunlight, whose wavelengths (in vacuum) extend from 380 to 750 nm, travels through the air and strikes the film perpendicularly. For which wavelength(s) in this range does destructive interference cause the film to look dark in reflected light? [822.826 Avacuum nm the tolerance is +/-2% Click if you would...
+BACK NEXT FULL SCREEN PRINTER VERSION MESSAGE MY INSTRUCTOR Interactive LearningWare 27.2 reviews the concepts that are important in this problem. A uniform layer of water (n = 1.33) lies on a glass plate (n = 1.52). Light shines perpendicularly on the layer. Because of constructive interference, the layer looks maximally bright when the wavelength of the light is 438 nm in vacuum and also when it is 657 in vacuum. (a) Obtain the minimum thickness of the film. (b)...
(a) Briefly explain what is meant by the following terms: refraction, refractive index, angle of incidence, angle of refraction. [4 marks] (b) The drawing shows four different situations in which a light ray is traveling from one medium into another. In some of the cases, the refraction is not shown correctly. For cases (i), (ii), and (iii), the angle of incidence is 55°; for case (iv), the angle of incidence is 0°. Identify which cases are incorrectly drawn and determine...
PRINTER VERSION BACK NEXT Chapter 27, Problem 06 GO Interactive Leaming Ware 27.1 provides some pertinent background information for this problem. Two parallels are uminated by light composed of two wavelengths One wavelength is AA 69m. The other wavelength is A and is unknown. On a viewing screen, the light with wavelength 6 produces the order brugt fringe at the same place where the light with wavelength a produces its fourth dark ringe. The fringes are counted relative to the...
Note: This test contains ten questions from chapter 19 to chapter 27. For full credit, you should show all the steps of your numerical answers. No credit would be earned for just circling the right answers. Chapter 19 - Electric Potential and Electric Potential Energy 1. Two point charges are of + 7 uC and - 4 C are held at the corners of a rectangle as shown. The lengths of the sides of rectangle are 0.15 m, and 0.05...