Homework Answers
1) True
2) True
3) True
4) True
5) False
because, 360 degrees phase difference is equal to one wavelength.
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MC interference and diffraction Due in 3 hours, 37 minutes Evaluate each of the following as...
Evaluate each of the following as true or false? true false White light is monochromatic. true false The...
Evaluate each of the following as true or false? true false White light is monochromatic. true false The reflected component of light traveling from one medium into another of lower refractive index will under go a phase change of 180 degrees relative to the incoming light. true false Constructive interference occurs when two waves differ in phase by 180 degrees. true false A phase difference of 360 degrees is the same as a path difference of one wavelength. true false Monochromatic light has one frequency.
1. Please answer the following questions regarding coherent lights: A. B. C. What makes two light...
1. Please answer the following questions regarding coherent
lights:
A.
B.
C.
What makes two light sources coherent? the same frequency the same frequency, and maintaining a constant phase difference the same amplitude, and maintaining a constant phase difference the same frequency and amplitude Monochromatic coherent light shines through a pair of slits. If the wavelength of the light is decreased, which of the following statements is true of the resulting interference pattern? The distance between the maxima stays the...
Light with wavelength 590 nm in air is incident perpendicularly from air on a film 8.71...
Light with wavelength 590 nm in air is incident perpendicularly from air on a film 8.71 um thick and with refractive index 1.35. Part of the light is reflected from the first surface of the film, and part enters the film and is reflected back at the second surface, where the film is again in contact with air. (a) How many waves are contained along the path of this second part of the light in its round trip through the...
Plane coherent light waves with wavelength 565 nm are incident on two narrow parallel slits positioned...
Plane coherent light waves with wavelength 565 nm are incident on two narrow parallel slits positioned a distance d = 1 mm apart in a plane parallel to the incoming wavefronts. The interference pattern is observed on a screen parallel to the original wavefronts at 1 m from the two slits. One of the slits is covered on the illuminated side by a glass slide of 0.1 mm thickness with refractive index 1.5. a/ What is the phase difference ∆φ...
Understanding Two-Source Interference Learning Goal: To understand the assumptions made by the standard two-source interference equations...
Understanding Two-Source Interference Learning Goal: To understand the assumptions made by the standard two-source interference equations and to be able to use them in a standard problem For solving two-source interference problems, there exists a standard set of equations that give the conditions for constructive and destructive interference. These equations are usually derived in the context of Young's double slit experiment, though they may actually be applied to a large number of other situations. The underlying assumptions upon which these...
Combinations of Thin Films (MC) Due in 2 hours, 18 minutes The diagram shows light incident...
Combinations of Thin Films (MC) Due in 2 hours, 18 minutes The diagram shows light incident from above on a film of thickness d. Each of the three materials in the figure can be chosen to be air, with index of refraction n-1.00, water, with index n-1.33, or glass, with index n-1.50. Under which of the following conditions will the reflected light be completely or nearly eliminated by interference? (lambda2 refers to the wavelength of the light inside the thin...
13. The interference of waves refers to the A) slowing down of one wave in the...
13. The interference of waves refers to the A) slowing down of one wave in the presence of another e of two or more waves at every point in tho change in wavelength that oecurs when two waves cross one another D) phase change of I 80" that occurs on reflection of a wave at a fixed end E) ability of waves to go around comers 14. A phase shift of 180' occurs when a light wave A is transmitted...
1. Two waves of the same wavelength interfere - in which case(s) below, will the two...
1. Two waves of the same wavelength interfere - in which case(s) below, will the two waves experience fully destructive interference? (Note: π is "pi") A) the two waves are 90o degrees apart in phase B) the two waves are 2π radians apart in phase C) the two waves are π radians apart in phase D) the two waves are 1.5 wavelengths apart in phase E) the two waves are one wavelength apart in phase F) the two waves are...
the formula for reflected light form thin film layer 2 m m 0,1,2..where t is the...
the formula for reflected light form thin film layer 2 m m 0,1,2..where t is the film thickness the wavelength of the light and n is the index of refraction, can be used to determine a) constructive interference only b) b) destructive interference c) c) both destructive and constructive interference. The following picture shows wave fronts of a wave propagating in the transparent materials A and B. What can you tell about the speeds V, Vs of the wave and...
To understand the derivations of, and be able to use, the equations for Fraunhofer diffraction. Diffraction...
To understand the derivations of, and be able to use, the
equations for Fraunhofer diffraction.
Diffraction is a general term for interference effects related
to edges or apertures. Diffraction is more familiar in waves with
longer wavlengths than those of light. For example, diffraction is
what causes sound to bend around corners or spread as it passes
through a doorway. Water waves spread as they pass between rocks
near a rugged coast because of diffraction. Two different regimes
for diffraction...
1. Please answer the following questions regarding coherent
lights:
A.
B.
C.
What makes two light sources coherent? the same frequency the same frequency, and maintaining a constant phase difference the same amplitude, and maintaining a constant phase difference the same frequency and amplitude Monochromatic coherent light shines through a pair of slits. If the wavelength of the light is decreased, which of the following statements is true of the resulting interference pattern? The distance between the maxima stays the...
Light with wavelength 590 nm in air is incident perpendicularly from air on a film 8.71 um thick and with refractive index 1.35. Part of the light is reflected from the first surface of the film, and part enters the film and is reflected back at the second surface, where the film is again in contact with air. (a) How many waves are contained along the path of this second part of the light in its round trip through the...
Understanding Two-Source Interference Learning Goal: To understand the assumptions made by the standard two-source interference equations and to be able to use them in a standard problem For solving two-source interference problems, there exists a standard set of equations that give the conditions for constructive and destructive interference. These equations are usually derived in the context of Young's double slit experiment, though they may actually be applied to a large number of other situations. The underlying assumptions upon which these...
Combinations of Thin Films (MC) Due in 2 hours, 18 minutes The diagram shows light incident from above on a film of thickness d. Each of the three materials in the figure can be chosen to be air, with index of refraction n-1.00, water, with index n-1.33, or glass, with index n-1.50. Under which of the following conditions will the reflected light be completely or nearly eliminated by interference? (lambda2 refers to the wavelength of the light inside the thin...
13. The interference of waves refers to the A) slowing down of one wave in the presence of another e of two or more waves at every point in tho change in wavelength that oecurs when two waves cross one another D) phase change of I 80" that occurs on reflection of a wave at a fixed end E) ability of waves to go around comers 14. A phase shift of 180' occurs when a light wave A is transmitted...
the formula for reflected light form thin film layer 2 m m 0,1,2..where t is the film thickness the wavelength of the light and n is the index of refraction, can be used to determine a) constructive interference only b) b) destructive interference c) c) both destructive and constructive interference. The following picture shows wave fronts of a wave propagating in the transparent materials A and B. What can you tell about the speeds V, Vs of the wave and...
To understand the derivations of, and be able to use, the
equations for Fraunhofer diffraction.
Diffraction is a general term for interference effects related
to edges or apertures. Diffraction is more familiar in waves with
longer wavlengths than those of light. For example, diffraction is
what causes sound to bend around corners or spread as it passes
through a doorway. Water waves spread as they pass between rocks
near a rugged coast because of diffraction. Two different regimes
for diffraction...
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