chapter 24 wave optics conceptual quiz questions

Chapter 24Wave Optics

Conceptual QuizQuestions

Chapter 24: Wave Optics

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The particle theory of light is attributed to

(A) Christian Huygens.

(B) Isaac Newton.

(C) Max Planck.

(D) Albert Einstein.

02 of 14



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When a beam of light (wavelength = 590 nm), originally traveling in air, enters a piece of glass (index of refraction 1.50), its frequency

(A) increases by a factor of 1.50.

(B) is reduced to 2/3 its original value.

(C) is unaffected.

(D) none of the given answers

03 of 14



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When a beam of light (wavelength = 590 nm), originally traveling in air, enters a piece of glass (index of refraction 1.50), its wavelength

(A) increases by a factor of 1.50.

(B) is reduced to 2/3 its original value.

(C) is unaffected.


04 of 14

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G

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G

A

A

G

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n

n

n



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Radio waves are diffracted by large objects such as buildings, whereas light is not noticeably diffracted. Why is this?

(A) Radio waves are unpolarized, whereas light is plane polarized.

(B) The wavelength of light is much smaller than the wavelength of radio waves.

(C) The wavelength of light is much greater than the wavelength of radio waves.

(D) Radio waves are coherent and light is usually not coherent.

05 of 14



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In a double-slit experiment, it is observed that the distance between adjacent maxima on a remote screen is 1.0 cm. What happens to the distance between adjacent maxima when the slit separation is cut in half?

(A) It increases to 2.0 cm.

(B) It increases to 4.0 cm.

(C) It decreases to 0.50 cm.

(D) It decreases to 0.25 cm.

06 of 14

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The separation between adjacent maxima in a double-slit interference pattern using monochromatic light is

(A) greatest for red light.

(B) greatest for green light.

(C) greatest for blue light.

(D) the same for all colors of light.

07 of 14



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White light is

(A) light of wavelength 550 nm, in the middle of the visible spectrum.

(B) a mixture of all wavelengths in the visible spectrum.

(C) a mixture of red, green, and blue light.

(D) the term used to describe very bright light.

(E) the opposite (or complementary color) of black light.

08 of 14



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Light with wavelength slightly shorter than 400 nm is called

(A) ultraviolet light.

(B) visible light.

(C) infrared light.


09 of 14



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Light with wavelength slightly longer than 750 nm is called

(A) ultraviolet light.

(B) visible light.

(C) infrared light.


10 of 14



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Which color of light undergoes the greatest refraction when passing from air to glass?

(A) red

(B) yellow

(C) green

(D) violet

11 of 14



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Two waves having the same amplitude and the same frequency pass simultaneously through a uniform medium. Maximum destructive interference occurs when the phase difference between the two waves is

(A) 0o

(B) 90o

(C) 180o

(D) 360o

12 of 14



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What occurs when light passes from water into glass?

(A) Its speed decreases, its wavelength becomes shorter, and its frequency remains the same.

(B) Its speed decreases, its wavelength becomes shorter, and its frequency increases.

(C) Its speed increases, its wavelength becomes longer, and its frequency remains the same.

(D) Its speed increases, its wavelength becomes longer, and its frequency decreases.

13 of 14



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The principle which allows a rainbow to form is

(A) refraction.

(B) polarization.

(C) dispersion.

(D) total internal reflection.



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In terms of the wavelength of light in magnesium fluoride, what is the minimum thickness of magnesium fluoride coating that must be applied to a glass lens to make it non-reflecting for that wavelength? (The index of refraction of magnesium fluoride is intermediate to that of glass and air.)

(A) one-fourth wavelength

(B) one-half wavelength

(C) one wavelength

(D) There is no minimum thickness.



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A convex lens is placed on a flat glass plate and illuminated from above with monochromatic red light. When viewed from above, concentric bands of red and dark are observed. What does one observe at the exact center of the lens where the lens and the glass plate are in direct contact?

(A) a bright red spot

(B) a dark spot

(C) a rainbow of color

(D) a bright spot that is some color other than red



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We have seen that two monochromatic light waves can interfere constructively or destructively, depending on their phase difference. One consequence of this phenomenon is

(A) the colors you see when white light is reflected from a soap bubble.

(B) the appearance of a mirage in the desert.

(C) a rainbow.

(D) the way in which Polaroid sunglasses work.



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Why would it be impossible to obtain interference fringes in a double-slit experiment if the separation of the slits is less than the wavelength of the light used?

(A) The very narrow slits required would generate many different wavelengths, thereby washing out the interference pattern.

(B) The two slits would not emit coherent light.

(C) The fringes would be too close together.

(D) In no direction could a path difference as large as one wavelength be obtained, and this is needed if a bright fringe, in addition to the central fringe, is to be observed.



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One beam of coherent light travels path P1 in arriving at point Q and another coherent beam travels path P2 in arriving at the same point. If these two beams are to interfere destructively, the path difference P1 - P2 must be equal to

(A) an odd number of half-wavelengths.

(B) zero.

(C) a whole number of wavelengths.

(D) a whole number of half-wavelengths.



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The wave theory of light is attributed to

(A) Christian Huygens.

(B) Isaac Newton.

(C) Max Planck.

(D) Albert Einstein.



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When a light wave enters into a medium of different optical density,

(A) its speed and frequency change.

(B) its speed and wavelength change.

(C) its frequency and wavelength change.

(D) its speed, frequency, and wavelength change.



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At the first maxima on either side of the central bright spot in a double-slit experiment, light from each opening arrives

(A) in phase.

(B) 90° out of phase.

(C) 180° out of phase.




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If a wave from one slit of a Young's double slit experiment arrives at a point on the screen one-half wavelength behind the wave from the other slit, which is observed at that point?

(A) bright fringe

(B) gray fringe

(C) multi-colored fringe

(D) dark fringe



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The principle which explains why a prism separates white light into different colors is

(A) refraction.

(B) polarization.

(C) dispersion.

(D) total internal reflection.



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Which color of light undergoes the smallest refraction when passing from air to glass?

(A) red

(B) yellow

(C) green

(D) violet



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In a single slit diffraction experiment, if the width of the slit increases, what happens to the width of the central maximum on a screen?

(A) It increases.

(B) It decreases.

(C) It remains the same.

(D) There is not enough information to determine.



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Consider two diffraction gratings; one has 4000 lines per cm and the other one has 6000 lines per cm. Make a statement comparing the dispersion of the two gratings.

(A) The 4000-line grating produces the greater dispersion.

(B) Both gratings produce the same dispersion, but the orders are sharper for the 4000-line grating.

(C) Both gratings produce the same dispersion, but the orders are sharper for the 6000-line grating.

(D) The 6000-line grating produces the greater dispersion.



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The colors on an oil slick are caused by reflection and

(A) diffraction.

(B) interference.

(C) refraction.

(D) polarization.



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When a beam of light, which is traveling in air, is reflected by a glass surface, there is

(A) a 90° phase change in the reflected beam.

(B) no phase change in the reflected beam.

(C) a 180° phase change in the reflected beam.

(D) a 45° phase change in the reflected beam.



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Which of the following is a false statement?

(A) All points on a given wave front have the same phase.

(B) Rays are always perpendicular to wave fronts.

(C) All wave fronts have the same amplitude.

(D) Wave fronts bend when moving obliquely from one medium to another.


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D

chapter 24 wave optics conceptual quiz questions

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wavelength of light

light of wavelength

green light

blue light

ultraviolet light

b visible light

beam of light wavelength

monochromatic light