Question 1

A silicon monoxide (n = 1.45)film of 330 nm thickness is used to coat a glass camera lens (n = 1.56).What wavelength of light in the visible region (390 to 710 nm)will be most efficiently transmitted by this system? (1 nm = 10−⁹ m)

A) 522 nm
B) 492 nm
C) 638 nm
D) 409 nm

Accepted Answer

638 nm

Question 2

How far,in wavelengths,does the movable mirror travel in a Michelson interferometer travel going from intensity maximum to the next intensity maximum?&#10;A)&#10; &#10;B)&#10; &#10;C)&#10; &#10;D)&#10; &#10;

Accepted Answer

11ea7a51_63a3_f36a_89bd_c1ae77e3fb84_TB5259_11

Question 3

Two flat glass plates are in contact along one end and are separated by a sheet of tissue paper at the other end.A monochromatic source of wavelength 490 nm illuminates the top plate.If 20 dark bands are counted across the top plate,what is the paper thickness? (1 nm = 10−⁹ m)Note that a dark band occurs where the plates contact.

A) 2.7 × 10−⁶ m
B) 3.4 × 10−⁶ m
C) 4.7 × 10−⁶ m
D) 4.9 × 10−⁶ m

Accepted Answer

The paper thickness can be calculated using the formula:

t = (m + 1/2)λ/2n

where, 
t = thickness of the paper 
m = number of dark bands 
λ = wavelength of light 
n = refractive index of the medium between the plates (in this case, air)

Here, 
m = 20 
λ = 490 nm 
n = 1 (for air)

Substituting the values, we get:

t = (20 + 1/2) x 490 nm / 2

t = 4.7 × 10^-6 m

Converting to nanometers, we get:

t = 4.7 × 10^-16 m

Therefore, the paper thickness is 4.7 × 10^-16 m, which is closest to option C.

Question 4

Waves from a radio station with a wavelength of 900 m arrive at a home receiver a distance 50 km away from the transmitter by two paths.One arrives via a direct-line path and the second by reflection from a mountain directly behind the receiver.What is the minimum distance between the mountain and receiver such that destructive interference occurs at the location of the listener? Assume no phase change on reflection.

A) 675 m
B) 900 m
C) 450 m
D) 225 m

Accepted Answer

Destructive interference occurs when the path difference is an odd multiple of half-wavelengths. The wavelength is 900 m, so half of that is 450 m. The path difference must be 450 m for the first instance of destructive interference. Since the wave travels to the mountain and back, the minimum distance to the mountain is 225 m (450 m / 2).

Question 5

What wavelength monochromatic source in the visible region (390 to 710 nm)can be used to constructively reflect off a soap film (n = 1.46)in air if the film is 288 nm thick?&#10;A) 561 nm&#10;B) 480 nm&#10;C) 587 nm&#10;D) 467 nm&#10;

Accepted Answer

For constructive interference in a thin film, the condition is 2 * n * d = m * λ, where n is the refractive index, d is the thickness, and λ is the wavelength. For m = 1, 2 * 1.46 * 288 nm = 561 nm, which is within the visible range.

Question 6

A beam of light of wavelength 600 nm is incident along the normal to two closely spaced parallel glass plates.For what air gap separation between the plates will the transmitted beam be of maximum intensity? (1 nm = 10−⁹ m)

A) 75 nm
B) 300 nm
C) 410 nm
D) 150 nm

Accepted Answer

When a beam of light is incident on two parallel plates, some of it is reflected and some is transmitted. The transmitted beam is constructively or destructively reinforced depending on the path difference between the two beams.
 
For constructive interference of the transmitted beam, the path difference between the two beams should be equal to an integer multiple of the wavelength of the light. Mathematically,

2d cosθ = mλ,

where d is the thickness of the glass plates, θ is the angle of incidence (which is zero in this case as the beam is incident along the normal), m is an integer, and λ is the wavelength of light.

Since m=0 for maximum intensity, we have:

2d cosθ = 0

or

2d = nλ,

where n = 1 (since the light is passing from air to glass) and λ = 600 nm.

Therefore, d = λ/2 = 300 nm.

Hence, the air gap separation between the plates for the maximum intensity of the transmitted beam is 300 nm.

Question 7

When light passes from a material with a low index of refraction into material with a high index of refraction:&#10;A) some light is reflected with a 180&#176; change of phase.&#10;B) none of the light is reflected.&#10;C) some light is reflected without a change of phase.&#10;D) the light that is not reflected has a 180&#176; change of phase.&#10;

Accepted Answer

When light passes from a material with a low index of refraction into a material with a high index of refraction, some light is reflected with a 180° change of phase. This is known as a phase inversion or a reflection with a π phase shift.

Question 8

A silicon monoxide thin film (n = 1.45)of thickness 77.6 nm is applied to a camera lens made of glass (n = 1.55).This will result in a destructive interference for reflected light of what wavelength?&#10;A) 720 nm&#10;B) 558 nm&#10;C) 450 nm&#10;D) 522 nm&#10;

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Question 9

What wavelength monochromatic source in the visible region (390 to 710 nm)can be used to constructively reflect off a soap film (n = 1.46)in air if the film is 70.0 nm thick?&#10;A) 558 nm&#10;B) 430 nm&#10;C) 450 nm&#10;D) 409 nm&#10;

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Question 10

A hair is placed at one edge between two flat glass plates.When this arrangement is illuminated with yellow light of wavelength (λ = 600 nm),a total of 61 dark bands are counted starting at the point of contact between the plates.How thick is the hair? (1 nm = 10−⁹ m)Note that a dark band occurs where the plates contact.

A) 3.6 × 10−⁴ m
B) 1.8 × 10−⁴ m
C) 1.8 × 10−⁵ m
D) 3.6 × 10−⁵ m

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Question 11

Light travels from inside a building to outside through a pane of glass.Which of the following is true regarding the phase change upon reflection in the case? A) A 180^o phase change occurs at the inside surface but not at the outside surface. B) A 180^o phase change occurs at the outside surface but not at the inside surface. C) A 180^o phase change occurs at both the inside surface and the outside surface. D) No phase change occurs at either the inside surface or the outside surface of the glass.

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Question 12

Two closely spaced parallel glass plates are separated by 900 nm.What wavelength light source in the visible region (390 nm to 710 nm)will experience maximum transmission through the two plates?&#10;A) 684 nm&#10;B) 600 nm&#10;C) 500 nm&#10;D) 429 nm&#10;

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Question 13

Two flat glass plates are in contact along one end and are separated by a sheet of paper 3.0 × 10−⁶ m thick at the other end.The top plate is illuminated by a monochromatic light source of wavelength 490 nm.How many dark parallel bands will be evident across the top plate? (1 nm = 10−⁹ m)Note that a dark band occurs where the plates contact.

A) 13
B) 7
C) 9
D) 17

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Question 14

A possible means for making an airplane radar-invisible is to coat the plane with an antireflective polymer.If radar waves have a wavelength of 3.84 cm,and the index of refraction of the polymer is n = 1.6,how thick would the coating be if a 180° phase change occurs at both surfaces?

A) 24 mm
B) 7.5 mm
C) 32 mm
D) 6.0 mm

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Question 15

Light of wavelength 500 nm shines on a soap bubble film (n = 1.46).For what soap film thickness,other than the minimum thickness,will constructive interference occur?&#10;A) 63 nm&#10;B) 102 nm&#10;C) 308 nm&#10;D) 257 nm&#10;

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Question 16

Two thin layers of material with different indices of refraction are coated on a glass plate.The outer first material has n₁ = 1.404,the inner second material has n₂ = 1.176,and the glass has n_glass = 1.62.If light is incident from air on the first layer,what is the phase change relative to that of the first layer reflection for light that reflects from the glass?

A) 180°
B) 540°
C) 360°
D) 0°

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Question 17

What is the minimum thickness of a glycerin film (n = 1.47)on which light of wavelength 450 nm shines that results in constructive interference of the reflected light? Assume the film is surrounded front and back by air.

A) 150 nm
B) 76.5 nm
C) 204 nm
D) 102 nm

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Question 18

A soap bubble (n = 1.35)is floating in air.If the thickness of the bubble wall is 322 nm,which of the following wavelengths of visible light is strongly reflected?&#10;A) 540 nm (green)&#10;B) 620 nm (red)&#10;C) 500 nm (blue)&#10;D) 580 nm (yellow)&#10;

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Question 19

When using 529-nm light,how far is the adjustable mirror of a Michelson interferometer moved when 600 fringe shifts are counted? A fringe shift occurs when the intensity goes from bright to dark or when it goes from dark to bright.

A) 1.58 × 10^-4 m
B) 7.94 × 10^-5 m
C) 9.90 × 10^-6 m
D) 3.97 × 10^-5 m

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Question 20

A puddle of water (n = 1.33)is covered with a very thin layer of oil (n = 1.20).How thick is the oil in the region that strongly reflects light with a wavelength of 497 nm?&#10;A) 207 nm&#10;B) 550 nm&#10;C) 458 nm&#10;D) 229 nm&#10;

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Question 21

A surface is coated with a material having index of refraction 1.50.If light in air has a wavelength of 450 nm and is normally incident on this surface,and it is found through interference effects with this light that the surface is 15 wavelengths thick,which of the following is the thickness of the surface?

A) 6.8 μm
B) 1.5 μm
C) 3.0 μm
D) 4.5 μm

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Question 22

If a wave from one slit of a Young's double-slit set-up arrives at a point on the screen one-half wavelength behind the wave from the other slit,what is observed at that point?&#10;A) dark fringe&#10;B) bright fringe&#10;C) gray fringe,neither dark nor bright&#10;D) multi-colored fringe&#10;

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Question 23

Light of wavelength 610 nm is incident on a slit of width 0.20 mm,and a diffraction pattern is produced on a screen that is 2.0 m from the slit.What is the distance of the second dark fringe from the center of the central bright fringe? (1 nm = 10−⁹ m)

A) 1.4 cm
B) 1.2 cm
C) 0.68 cm
D) 0.92 cm

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Question 24

A thin film (  &#10;)of thickness 77.6 nm,applied to a camera lens (  &#10;),is the minimum thickness that results in destructive interference for reflected light of wavelength 450 nm.which of the following is the next greater thickness that will also give destructive interference for this wavelength?&#10;A) 120 nm&#10;B) 155 nm&#10;C) 116 nm&#10;D) 233 nm&#10;

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Question 25

Light of wavelength 540 nm is incident on a slit of width 0.150 mm,and a diffraction pattern is produced on a screen that is 3.00 m from the slit.What is the width of the central bright fringe? (1 nm = 10−⁹ m)

A) 1.44 cm
B) 0.720 cm
C) 2.16 cm
D) 1.76 cm

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Question 26

Laser light sent through a double slit produces an interference pattern on a screen 3.00 m from the slits.If the m = 2 maximum occurs at an angle of 10.7&#176;,at what angle does the m = 8 maximum occur?&#10;A) No m = 8 maximum occurs.&#10;B) 48.0&#176;&#10;C) 56.3&#176;&#10;D) Not enough information is given.&#10;

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Question 27

A Young's interference experiment is conducted with blue-green argon laser light (λ = 515 nm).The separation between the slits is 0.50 mm,and the interference pattern appears on a screen 4.95 m away.What is the spacing between the bright fringes? (1 nm = 10−⁹ m)

A) 3.4 mm
B) 5.1 mm
C) 1.7 mm
D) 6.8 mm

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Question 28

That all points on a wave front act as new sources of spherical waves is attributed to:&#10;A) Maxwell.&#10;B) Young.&#10;C) Thomas.&#10;D) Huygens.&#10;

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Question 29

A light source simultaneously emits light of two wavelengths,480 nm and 560 nm,respectively.The source is used in a double-slit interference experiment where the slit spacing is a 0.040 mm,and the distance between double slits and the screen is 1.6 m.What is the separation between the m = 3 bright fringes of the two wavelengths as they appear on the screen? (1 nm = 10−⁹ m)

A) 0.96 cm
B) 0.48 cm
C) 0.64 cm
D) 0.16 cm

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Question 30

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Question 31

Two narrow slits are 0.025 mm apart.When a laser shines on them,bright fringes form on a screen that is a meter away.These fringes are 1.3 cm apart.What is the separation between the m = 2 bright fringe and the central fringe?

A) 2.6 cm
B) 5.3 cm
C) 8.6 cm
D) 6.0 cm

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Question 32

In a Young's double-slit experiment,how many maxima occur between the m = +3 and m = &#8722;3 maxima?&#10;A) 6&#10;B) 8&#10;C) 7&#10;D) Not given.&#10;

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Question 33

A Young's double-slit apparatus is set up.The source wavelength is 430 nm,and the double-slit spacing is 0.040 mm.At what distance from the double slits should the screen be placed if the spacing between alternating bright fringes is to be 2.6 cm? (1 nm = 10−⁹ m)

A) 2.9 m
B) 2.4 m
C) 2.2 m
D) 1.6 m

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Question 34

A Young's double-slit apparatus is set up.A screen is positioned 1.16 m from the double slits,and the spacing between the two slits is 0.0500 mm.The distance between alternating bright fringes is 1.42 cm.What is the light source wavelength? (1 nm = 10−⁹ m)

A) 612 nm
B) 280 nm
C) 490 nm
D) 355 nm

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Question 35

In a Young's double-slit interference apparatus,the distance from the slits to the screen is tripled.The distance between adjacent light and dark fringes changes by a factor of:&#10;A)1/3.&#10;B)1.&#10;C)3.&#10;D)1/9.&#10;

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Question 36

In a Young's double-slit experiment,by how many wavelengths do the paths from the slits to the screen differ for the m = 3 and the m = 8 minima?&#10;A) 10&#10;B) 2.5&#10;C) 5&#10;D) Some other value than those given since this is for destructive interference.&#10;

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Question 37

In a Young's double-slit experiment,both the wavelength and the slit separation are increased by 25%.What happens to the distance between two adjacent bright fringes?&#10;A) It decreases by 50%.&#10;B) It increases by 50%.&#10;C) The distance increases by 25% or more.&#10;D) The distance stays the same.&#10;

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Question 38

A Young's double-slit apparatus is set up so that a screen is positioned 1.6 m from the double slits,and the spacing between the two slits is 0.0315 mm.What is the distance between alternating bright fringes on the screen if the light source has a wavelength of 630 nm? (1 nm = 10−⁹ m)

A) 0.016 m
B) 0.047 m
C) 0.025 m
D) 0.032 m

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Question 39

In a Young's double-slit interference apparatus,by what factor is the distance between adjacent light and dark fringes changed when the separation between slits is tripled?&#10;A) 1/9&#10;B) 1&#10;C) 3&#10;D) 1/3&#10;

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Question 40

A silicon monoxide (n = 1.45)film of 108 nm thickness is used to coat a glass camera lens (n = 1.56).What wavelength of light in the visible region (390 to 710 nm)will be most efficiently transmitted by this system? (1 nm = 10−⁹ m)

A) 580 nm
B) 400 nm
C) 492 nm
D) 626 nm

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Question 41

A Young's double-slit apparatus is set up where a screen is positioned 0.80 m from the double slits.If the distance between alternating bright fringes is 0.83 cm,and the light source has a wavelength of 580 nm,what is the separation of the double slits? (1 nm = 10−⁹ m)

A) 6.0 × 10−⁵ m
B) 2.8 × 10−⁵ m
C) 4.9 × 10−⁵ m
D) 5.6 × 10−⁵ m

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Question 42

A multiple slit diffraction grating has a slit separation of 2.00 × 10−⁶ m.Find the wavelength of the monochromatic light that will have its second order (m = 2)bright fringe diffracted through an angle of 43.4°.(1 nm = 10−⁹ m)

A) 616 nm
B) 500 nm
C) 687 nm
D) 120 nm

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Question 43

At what angle will the highest order (m value)maximum appear for a wavelength 400 nm using a grating with 600 lines per mm?&#10;A) 54&#176;&#10;B) 90&#176;&#10;C) 74&#176;&#10;D) 36&#176;&#10;

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Question 44

The 2.4-m diameter Hubble space telescope has been placed into Earth orbit by the space shuttle.Assuming a wavelength of 710 nm,what angular resolution could this telescope achieve by Rayleigh's criterion? (1 nm = 10−⁹ m)

A) 5.7 × 10−⁶ rad
B) 7.5 × 10−⁶ rad
C) 3.6 × 10−⁷ rad
D) 2.5 × 10−⁷ rad

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Question 45

A microscope has an objective lens with an aperture of diameter 0.60 cm where a monochromatic light source of wavelength 580 nm is used to illuminate the object.It is determined that the minimum angle of resolution is 1.18 × 10−⁴ rad.If the illuminating source were replaced by a source of wavelength 700 nm,what would the minimum angle of resolution now become? (1 nm = 10−⁹ m)

A) 0.58 × 10−⁴ rad
B) 1.4 × 10−⁴ rad
C) 0.85 × 10−⁴ rad
D) 1.2 × 10−⁴ rad

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Question 46

A binary star system in the constellation Orion has an angular separation between the stars of 10−⁵ radians.Assuming a wavelength of 700 nm,what is the smallest aperture (diameter)telescope that will just resolve the two stars? (1 nm = 10−⁹ m)

A) 8.5 cm
B) 4.2 cm
C) 6.1 cm
D) 3.0 cm

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Question 47

Light with a wavelength of 450 nm shines through a lens with an aperture diameter of 0.85 cm.Use Rayleigh's criterion to determine the limiting angle of resolution.(1 nm = 10−⁹ m) A) 6.5 × 10−⁵ rad B) 1.3 × 10−⁴ rad C) 9.2 × 10−⁵ rad D) 3.0 × 10−⁹ rad

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Question 48

A laser shines 630-nm light through a grating producing a first order (m = 1)maximum at an angle of 30°.A second laser produces a first order maximum with the same grating at 20°.What is the wavelength emitted by the second laser?

A) 945 nm
B) 651 nm
C) 420 nm
D) 431 nm

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Question 49

A diffraction grating has 2500 lines/cm.What is the slit separation?&#10;A) 4.0 &#956;m&#10;B) 250 nm&#10;C) 400 nm&#10;D) 2.5 &#956;m&#10;

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Question 50

Find the radius of a star image formed on the retina of the eye if the aperture diameter (the pupil)at night is 0.70 cm and the length of the eye is 3.0 cm.Assume the wavelength of starlight in the eye is 600 nm.(1 nm = 10−⁹ m) A) 5.2 × 10−⁴ m B) 3.1 × 10−⁶ m C) 2.6 × 10−⁶ m D) 2.6 × 10−⁴ m

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Question 51

What is the highest order (m value)maximum for wavelength 450 nm that can be obtained with a grating with 300 lines per mm?&#10;A) 8&#10;B) 3&#10;C) 7&#10;D) 4&#10;

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Question 52

A wavelength of 573 nm yields a first order (m = 1)maximum at 40&#176; with a grating.At what angle will the second order (m = 2)maximum appear for this wavelength?&#10;A) 17.5&#176;&#10;B) No second order maximum exists in this case.&#10;C) -40&#176;&#10;D) 80&#176;&#10;

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Question 53

A telescope is used to view two small lights separated by 2.0 cm at a distance of 500 m.What minimum objective lens diameter is needed to just resolve these objects if their wavelength is 656 nm?&#10;A) 2.0 cm&#10;B) 1.0 cm&#10;C) 1.2 cm&#10;D) 2.4 cm&#10;

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Question 54

A diffraction grating with 10,000 lines/cm will exhibit the first order (m = 1)maximum for light of wavelength 264 nm at what angle? (1 nm = 10−⁹ m) A) 15.3° B) 0.62° C) 0.51° D) 31°

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Question 55

In a single-slit diffraction experiment,the width of the central maximum is 6.0 mm.The width of the slit is then doubled as is the distance to the screen.What is the resulting width of the central maximum?&#10;A) 12 mm&#10;B) 6.0 mm&#10;C) 24 mm&#10;D) 3.0 mm&#10;

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Question 56

At what angle will the second order (m = 2)maximum occur for a wavelength of 450 nm using a diffraction grating with 10,000 lines per cm?&#10;A) 64&#176;&#10;B) 27&#176;&#10;C) 53&#176;&#10;D) No second order maximum will occur in this case.&#10;

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Question 57

An individual's eye pupil changes from a diameter of 1.5 mm to 3.5 mm as the illumination is increased.By what factor does the minimum angle of resolution change?&#10;A) 2.0&#10;B) 2.3&#10;C) 0.43&#10;D) 0.65&#10;

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Question 58

What is the highest order (the m value)of the complete visible spectrum (390 nm to 710 nm)that can be obtained with a grating having 300 lines/mm?&#10;A) 5&#10;B) 9&#10;C) 8&#10;D) 4&#10;

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Question 59

Helium-neon laser light (λ = 632.8 nm)is sent through a single slit of width 0.41 mm.What is the width of the central maximum on a screen 1.0 m in back of the slit? (1 nm = 10−⁹ m) A) 5.3 mm B) 4.2 mm C) 3.1 mm D) 2.0 mm

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Question 60

In a single-slit diffraction experiment,the angular width of the central maximum is 0.16&#176;.The width of the slit is then doubled as is the distance to the screen.What is the resulting angular width of the central maximum?&#10;A) 0.64&#176;&#10;B) 0.080&#176;&#10;C) 0.32&#176;&#10;D) 0.16&#176;&#10;

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Deck 25: Optical Instruments: Part A