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Deck 12: Optical Images

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Question
<strong> An object is placed between two mirrors set at an angle to each other. The location of the image of the object in mirror 1 is shown in the figure. The location of the image of that image in mirror 2 is at</strong> A) 1 B) 2 C) 3 D) 4 E) 5 <div style=padding-top: 35px> An object is placed between two mirrors set at an angle to each other. The location of the image of the object in mirror 1 is shown in the figure. The location of the image of that image in mirror 2 is at

A) 1
B) 2
C) 3
D) 4
E) 5
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Question
A concave spherical mirror can produce which one of the following types of images?

A) virtual, inverted, and magnified
B) real, erect, and magnified
C) diminished, erect, and virtual
D) magnified, erect, and virtual
E) diminished, real, and erect
Question
Two plane mirrors are arranged so that the reflecting surfaces face each other and are parallel. The mirrors are located at x = <strong>Two plane mirrors are arranged so that the reflecting surfaces face each other and are parallel. The mirrors are located at x = 2 m and x = 2 m. An object is located at X = 1 m. The second image from the left mirror is located at</strong> A) -4 m B) -5 m C) -6 m D) -8 m E) None of the above. <div style=padding-top: 35px> 2 m and x = 2 m. An object is located at
X = 1 m. The second image from the left mirror is located at

A) -4 m
B) -5 m
C) -6 m
D) -8 m
E) None of the above.
Question
An object is placed 10 inches in front of a concave mirror that has a radius of curvature of 8 inches. The image is located

A) 4.75 inches in front of the mirror.
B) 4.75 inches behind the mirror.
C) 3 inches behind the mirror.
D) 6.67 inches behind the mirror.
E) 6.67 inches in front of the mirror.
Question
An object 25 cm from a convex mirror is observed to produce an image 13.6 cm behind the mirror. What is the focal length of the mirror?

A) 8.8 cm
B) -8.8 cm
C) 30 cm
D) -30 cm
E) -60 cm
Question
<strong> Two parallel rays are incident on a concave spherical mirror whose center of curvature is at 3. After being reflected, the two rays cross at point</strong> A) 1 B) 2 C) 3 D) 4 E) 5 <div style=padding-top: 35px> Two parallel rays are incident on a concave spherical mirror whose center of curvature is at 3. After being reflected, the two rays cross at point

A) 1
B) 2
C) 3
D) 4
E) 5
Question
When an object is closer to a concave mirror than the mirror's focal point, the

A) magnification is less than one.
B) image distance is greater than the object distance.
C) magnification is equal to one.
D) image distance is negative.
E) image is inverted.
Question
An object 0.50 cm high is 5.0 cm from a concave spherical mirror of focal length 20 cm. How high is the image and is it erect or inverted?

A) 0.40 cm, inverted
B) 0.67 cm, erect
C) 0.50 cm, inverted
D) 0.67 cm, inverted
E) 0.40 cm, erect
Question
A concave spherical mirror has a radius of curvature of 50 cm. The image of an object located 35 cm in front of the mirror is

A) real, inverted, magnified 2.5 times, and 87.5 cm from the mirror.
B) real, erect, magnified 2.5 times, and 87.5 cm from the mirror.
C) virtual, erect, magnified 3.3 times, and 117 cm from the mirror.
D) real, inverted, magnified 3.3 times, and 117 cm from the mirror.
E) real, inverted, diminished 0.42 times, and 14.6 cm from the mirror.
Question
What is the minimum height of a plane mirror in which a standing woman can see her entire body reflected?

A) It must equal her height.
B) It depends on how far from the mirror the woman stands.
C) It depends on the focal length of the mirror.
D) It must be one-half her height.
E) It depends on the image distance.
Question
<strong> A point object P is placed before two mirrors at right angles as shown. Images of the object are formed only at positions</strong> A) 1, 2, and 3 B) 2, 3, and 4 C) 3, 4, and 5 D) 2 and 4 E) 1, 3, and 5 <div style=padding-top: 35px> A point object P is placed before two mirrors at right angles as shown. Images of the object are formed only at positions

A) 1, 2, and 3
B) 2, 3, and 4
C) 3, 4, and 5
D) 2 and 4
E) 1, 3, and 5
Question
The image of an object located 10 cm from a concave spherical mirror of radius 10 cm is

A) real, inverted, and magnified.
B) real, inverted, and diminished.
C) real, inverted, and the same size.
D) virtual, erect, and magnified.
E) virtual, erect, and diminished.
Question
When an object is farther from a convex mirror than the mirror's focal point, the

A) magnification is less than one.
B) image distance is greater than the object distance.
C) magnification is equal to one.
D) image is real.
E) image is inverted.
Question
The technical name for the type of image formed by a single plane mirror is

A) a real image.
B) an inverted image.
C) an enlarged image.
D) a focal image.
E) a virtual image.
Question
When an object is farther from a concave mirror than twice the mirror's focal length, the

A) magnification is less than one.
B) image is inverted.
C) image distance is less than the object distance.
D) image is real.
E) All of these are correct.
Question
When an object is closer to a convex mirror than the mirror's focal point, the

A) magnification is less than one.
B) image distance is greater than the object distance.
C) magnification is equal to one.
D) image is real.
E) image is inverted.
Question
<strong> Two plane mirrors make an angle of 120° as shown. An object is placed at O. When the eye is placed at E, it will observe images formed at</strong> A) 1 and 2 B) 2 and 3 C) 3 and 4 D) 1 and 4 E) 1 and 3 <div style=padding-top: 35px> Two plane mirrors make an angle of 120° as shown. An object is placed at O. When the eye is placed at E, it will observe images formed at

A) 1 and 2
B) 2 and 3
C) 3 and 4
D) 1 and 4
E) 1 and 3
Question
When you look at the image reflected from two plane mirrors placed at 90 °\degree , the image

A) is real.
B) is inverted.
C) does not change handiness.
D) is compressed in the vertical direction.
E) None of the above statements is true.
Question
<strong> The parallel rays incident on the surface of the concave spherical mirror in the figure converge to a point at</strong> A) 1 B) 2 C) 3 D) 4 E) 5 <div style=padding-top: 35px> The parallel rays incident on the surface of the concave spherical mirror in the figure converge to a point at

A) 1
B) 2
C) 3
D) 4
E) 5
Question
<strong> The image of an object, placed in front of a spherical convex mirror as shown, forms between</strong> A) O and V and is magnified. B) V and F and is magnified. C) V and F and is diminished. D) F and C and is diminished. E) F and C and is magnified. <div style=padding-top: 35px> The image of an object, placed in front of a spherical convex mirror as shown, forms between

A) O and V and is magnified.
B) V and F and is magnified.
C) V and F and is diminished.
D) F and C and is diminished.
E) F and C and is magnified.
Question
Dentists often use concave mirrors to see better. In order for the mirror to produce an enlarged image of a tooth, the tooth must be placed

A) at the focal point of the mirror.
B) further than the focal point of the mirror.
C) closer than the focal point of the mirror.
D) at any distance.
E) Concave mirrors cannot produce an enlarged image.
Question
An object is placed 4.24 cm in front of a concave mirror that has a radius of curvature of 20.3 cm. The image is located

A) 12.1 cm in front of the mirror.
B) 12.1 cm behind the mirror.
C) 7.62 cm behind the mirror.
D) 16.9 cm behind the mirror.
E) 16.9 cm in front of the mirror.
Question
An object is 10 cm from a concave spherical mirror whose radius is 10 cm. The image is

A) real, inverted, and magnified.
B) real, inverted, and diminished.
C) real, inverted, and the same size.
D) virtual, erect, and magnified.
E) virtual, erect, and diminished.
Question
<strong> Your eye looks into a thick glass slab at an air bubble located at point 3. The bubble appears to be at point</strong> A) 1 B) 2 C) 3 D) 4 E) 5 <div style=padding-top: 35px> Your eye looks into a thick glass slab at an air bubble located at point 3. The bubble appears to be at point

A) 1
B) 2
C) 3
D) 4
E) 5
Question
A circular coin is 33.3 cm from a concave spherical mirror. (Assume the coin is on the optical axis.) The image of the coin is produced 10.0 cm from the mirror and on the same side as its real position. If the coin is moved to a position 23.3 cm from the mirror, calculate how far from the mirror the new image is:

A) 13.7 cm
B) 10.0 cm
C) 15.1 cm
D) 8.35 cm
E) 11.5 cm
Question
A cat is watching a goldfish in a spherical fishbowl of radius 15.0 cm. The goldfish is 5.00 cm from the side of the bowl nearest the cat. How far from the side of the bowl does the fish appear to be to the cat? (For water, n = 1.33.)

A) 7.5 cm
B) 4.5 cm
C) 4.1 cm
D) 3.5 cm
E) 2.5 cm
Question
A circular coin is 33.3 cm from a concave spherical mirror. (Assume the coin is on the optical axis.) The image of the coin is produced 23.3 cm towards the mirror from its real position. Calculate the focal length of the mirror.

A) 15.4 cm
B) 7.69 cm
C) 13.7 cm
D) 27.4 cm
E) 10.0 cm
Question
A real object in front of a concave spherical mirror can produce an image that is

A) virtual, inverted, and magnified.
B) real, erect, and magnified.
C) diminished, erect, and virtual.
D) magnified, erect, and virtual.
E) diminished, real, and erect.
Question
The lens of a slide projector has a focal length of +12.0 cm. A slide 12.6 cm to the left of the lens forms the object for the lens. The screen should be placed

A) 25 cm to the left of the lens.
B) 25 cm to the right of the lens.
C) 250 cm to the left of the lens.
D) 250 cm to the right of the lens.
E) 390 cm to the right of the lens.
Question
<strong> An object is located 3 cm from the surface of a silvered spherical glass Christmas tree ornament that is 3 cm in diameter. The image forms at</strong> A) 1 B) 2 C) 3 D) 4 E) 5 <div style=padding-top: 35px> An object is located 3 cm from the surface of a silvered spherical glass Christmas tree ornament that is 3 cm in diameter. The image forms at

A) 1
B) 2
C) 3
D) 4
E) 5
Question
<strong> Your eye looks into a thick glass slab at an air bubble located at point 3. The bubble appears to be at point</strong> A) 1 B) 2 C) 3 D) 4 E) 5 <div style=padding-top: 35px> Your eye looks into a thick glass slab at an air bubble located at point 3. The bubble appears to be at point

A) 1
B) 2
C) 3
D) 4
E) 5
Question
<strong> An object is located 7.62 com from the surface of a silvered spherical glass Christmas tree ornament that is 7.62 com in diameter. The image distance is approximately</strong> A) 1.52 cm B) -1.52 cm C) 4.24 cm D) -4.24 cm E) infinity because no image is formed. <div style=padding-top: 35px> An object is located 7.62 com from the surface of a silvered spherical glass Christmas tree ornament that is 7.62 com in diameter. The image distance is approximately

A) 1.52 cm
B) -1.52 cm
C) 4.24 cm
D) -4.24 cm
E) infinity because no image is formed.
Question
Two parallel mirrors are a distance d apart. An object is placed 1.0 inch in front of the right-hand mirror. After 5 reflections, with the first reflection from the right-hand mirror, an image is located 17 inches behind the right-hand mirror. Calculate the distance between the mirrors.

A) 5.3 in
B) 3.2 in
C) 6.0 in
D) 4.0 in
E) 3.6 in
Question
<strong> Which of the following statements about the figure is correct when the index of refraction n<sub>2</sub> is greater than n<sub>1</sub>?</strong> A) The object distance is greater than the image distance. B) The image distance may be positive or negative. C) The radius of curvature is negative. D) The magnitude of the magnification is less than one. E) The object distance is positive. <div style=padding-top: 35px> Which of the following statements about the figure is correct when the index of refraction n2 is greater than n1?

A) The object distance is greater than the image distance.
B) The image distance may be positive or negative.
C) The radius of curvature is negative.
D) The magnitude of the magnification is less than one.
E) The object distance is positive.
Question
A convenience's store clerk observes at shopper 4 m in front of a convex mirror. The image of the shopper is located 1.5 m behind the mirror. The focal length of the mirror is

A) -2.5 m
B)-2.4 m
C) -0.67 m
D)-1.1 m
E) none of the above
Question
An object is placed between 2f and infinity in front of a concave mirror of focal length f. The image is located

A) behind the mirror, between 2f and the mirror.
B) behind the mirror, between 2f and infinity.
C) in front of the mirror, between the mirror and f.
D) in front of the mirror, between f and the center of curvature.
E) in front of the mirror, between the center of curvature and infinity.
Question
The clear water of a lake is 1.5 m deep at the end of a dock. You look directly down from the end of the dock and see a rock on the bottom of the lake. How far below the surface does the rock appear to be? (For water, n = 1.33.)

A) 2.0 m
B) 1.5 m
C) 1.1 m
D) 0.75 m
E) 1.8 m
Question
When you stand in water up to your knees, your feet appear

A) closer than usual.
B) farther away than usual.
C) at the same location as usual.
D) To answer this you must know your height and the depth of the water.
E) To answer this you must know the index of refraction of water.
Question
<strong> Half-round slabs of glass or plastic are often used to trace rays. Pins are placed at points P and Q. For an observer to see the images of the pins in line, she should place her eye at point</strong> A) 1 B) 2 C) 3 D) 4 E) 5 <div style=padding-top: 35px> Half-round slabs of glass or plastic are often used to trace rays. Pins are placed at points P and Q. For an observer to see the images of the pins in line, she should place her eye at point

A) 1
B) 2
C) 3
D) 4
E) 5
Question
How far must a man's face be located in front of a concave spherical shaving mirror of radius 120 cm for him to see an erect image of his face four times its real size?

A) -75 cm
B) 45 cm
C) 75 cm
D) 90 cm
E) 150 cm
Question
<strong> A negative lens with a focal length of -10.0 cm is on the same axis as a positive lens with a focal length of +20.0 cm as illustrated. The distance between the lenses is 20.0 cm. A real object 3.00 cm high is placed 20.0 cm to the left of the negative lens. After the light has passed through both lenses, the image is</strong> A) 3.0 cm high and virtual. B) 1.0 cm high and virtual. C) 1.0 cm high and real. D) 3.0 cm high and real. E) None of these is correct. <div style=padding-top: 35px> A negative lens with a focal length of -10.0 cm is on the same axis as a positive lens with a focal length of +20.0 cm as illustrated. The distance between the lenses is 20.0 cm. A real object 3.00 cm high is placed 20.0 cm to the left of the negative lens. After the light has passed through both lenses, the image is

A) 3.0 cm high and virtual.
B) 1.0 cm high and virtual.
C) 1.0 cm high and real.
D) 3.0 cm high and real.
E) None of these is correct.
Question
<strong> Two lenses, one with a focal length f<sub>1</sub> = +20 cm and the other with a focal length f<sub>2 </sub> = -20 cm, are on the same axis and 60 cm apart as shown. A real object is 40 cm to the left of the positive lens. The image formed by the negative lens is</strong> A) real and 10 cm from the negative lens. B) virtual and 10 cm from the negative lens. C) at infinity. D) virtual and 20 cm from the negative lens. E) None of these is correct. <div style=padding-top: 35px> Two lenses, one with a focal length f1 = +20 cm and the other with a focal length f2 = -20 cm, are on the same axis and 60 cm apart as shown. A real object is 40 cm to the left of the positive lens. The image formed by the negative lens is

A) real and 10 cm from the negative lens.
B) virtual and 10 cm from the negative lens.
C) at infinity.
D) virtual and 20 cm from the negative lens.
E) None of these is correct.
Question
A thin converging lens made of Crown glass (n = 1.517) is flat on one side and has a radius of curvature of 50 cm on the other side. An object is placed 45.0 cm to the left of this lens. Where is the image?

A) 120 cm to the right of the lens
B) 31 cm to the left of the lens
C) 31 cm to the right of the lens
D) 84 cm to the right of the lens
E) 84 cm to the left of the lens
Question
A positive lens has a focal length f. The image is the same size as the object when

A) the object is at the focal point.
B) the image is on the opposite side of the lens from the object and is the same distance from the lens as the object.
C) the image is on the same side of the lens as the object and is the same distance from the lens as the object.
D) The image can never be the same size as the object.
E) None of these is correct.
Question
A real object is 42 cm from a negative lens with f = -21 cm. The image is

A) real and 14 cm from the lens.
B) real and 42 cm from the lens.
C) virtual and 42 cm from the lens.
D) virtual and 21 cm from the lens.
E) virtual and 14 cm from the lens.
Question
An object 2 cm high is placed 20 cm from a thin convex lens that has a focal length of 10 cm. Which of the following statements describes the image formed?

A) It is 2 cm high.
B) It is 20 cm from the lens.
C) It is inverted.
D) It is real.
E) All of these are correct.
Question
<strong> A real image is formed by a converging lens. If a weak diverging lens is placed between the converging lens and the image, where is the new image located?</strong> A) between the object and the converging lens B) farther from the converging lens than the original image C) closer to the converging lens than the original image D) at the original image position E) It might be either between the object and the converging lens or to the right of the diverging lens. <div style=padding-top: 35px> A real image is formed by a converging lens. If a weak diverging lens is placed between the converging lens and the image, where is the new image located?

A) between the object and the converging lens
B) farther from the converging lens than the original image
C) closer to the converging lens than the original image
D) at the original image position
E) It might be either between the object and the converging lens or to the right of the diverging lens.
Question
A real object is 30 cm from a negative lens that has a focal length f = -20 cm. The image is

A) virtual and 30 cm from the lens.
B) real and 12 cm from the lens.
C) virtual and 12 cm from the lens.
D) real and 20 cm from the lens.
E) None of these is correct.
Question
To project an image onto a screen using a lens,

A) the lens must be diverging and the object must be farther from the lens than the second focal point.
B) the lens must be converging and the object must be between the first focal point and the lens.
C) the lens must be diverging and the image must be farther from the lens than the second focal point.
D) the lens must be converging and the object must be farther from the lens than the first focal point.
E) the lens must be diverging and the object must be between the first focal point and the lens.
Question
Which of the following statements is false?

A) The image produced by a diverging lens is always virtual, upright, and reduced in size.
B) The image produced by a converging lens can be virtual, upright, and magnified in size.
C) The image produced by a converging lens can never virtual, upright, and reduced in size.
D) To produce a real image, an object has to be place further away than the focal point of a converging lens.
E) The image produced by a converging lens cannot be real, inverted, and reduced in size.
Question
<strong> A plano-concave lens has r<sub>1</sub> = 15 cm and is constructed of a material with refractive index of 1.5. The focal length of the lens is</strong> A) -15 cm B) 15 cm C) -30 cm D) 30 cm E) None of these is correct. <div style=padding-top: 35px> A plano-concave lens has r1 = 15 cm and is constructed of a material with refractive index of 1.5. The focal length of the lens is

A) -15 cm
B) 15 cm
C) -30 cm
D) 30 cm
E) None of these is correct.
Question
A positive lens has a focal length f. The only way to get a magnification of -1 is to

A) place a real object at the focal point.
B) place a real object at a distance 2f from the lens.
C) place a virtual object at a distance 2f from the lens.
D) Magnifications can never be negative.
E) None of these is correct.
Question
<strong> An object placed 4 cm to the left of a positive lens of focal length 2 cm produces an image 4 cm to the right of the lens. A negative lens placed at the focal point of the positive lens as shown produces a final image 6 cm to the right of the negative lens. The negative lens has a focal length of</strong> A) -1.5 cm B) -3.0 cm C) -6.0 cm D) 10 cm E) -2.0 cm <div style=padding-top: 35px> An object placed 4 cm to the left of a positive lens of focal length 2 cm produces an image 4 cm to the right of the lens. A negative lens placed at the focal point of the positive lens as shown produces a final image 6 cm to the right of the negative lens. The negative lens has a focal length of

A) -1.5 cm
B) -3.0 cm
C) -6.0 cm
D) 10 cm
E) -2.0 cm
Question
An object is located 3 cm in front of a converging lens of focal length 2 cm. A diverging lens of -6 cm focal length is placed 3 cm on the other side of the converging lens. What is the final image distance with respect to the diverging lens?

A) \infty
B) 2 cm
C) -2 cm
D) 6 cm
E) -6 cm
Question
<strong> An object is placed in front of a plano-concave lens at r<sub>1</sub>/2. The image produced by the lens is</strong> A) inverted, real, and reduced in size. B) inverted, virtual, and enlarged in size. C) upright, virtual, and reduced in size. D) upright, virtual, and enlarged in size. E) upright, real, and enlarged in size. <div style=padding-top: 35px> An object is placed in front of a plano-concave lens at r1/2. The image produced by the lens is

A) inverted, real, and reduced in size.
B) inverted, virtual, and enlarged in size.
C) upright, virtual, and reduced in size.
D) upright, virtual, and enlarged in size.
E) upright, real, and enlarged in size.
Question
A real object is 42.1 cm from a negative lens that has a focal length of 25.6 cm. The object is 2.45 mm high. The height and orientation of the image are

A) 3.8 mm and inverted.
B) 0.93 mm and erect.
C) 6.4 mm and erect.
D) 0.38 mm and erect.
E) None of these is correct.
Question
<strong> When a real object is placed just inside the focal point F of a diverging lens, the image is</strong> A) virtual, erect, and diminished. B) real, inverted, and enlarged. C) real, inverted, and diminished. D) virtual, erect, and enlarged. E) virtual, inverted, and diminished. <div style=padding-top: 35px> When a real object is placed just inside the focal point F of a diverging lens, the image is

A) virtual, erect, and diminished.
B) real, inverted, and enlarged.
C) real, inverted, and diminished.
D) virtual, erect, and enlarged.
E) virtual, inverted, and diminished.
Question
<strong> A negative lens with a focal length of -15 cm is 25 cm from a positive lens with a focal length of +20 cm on the same asix. Parallel light from the left is incident on the negative lens. The image formed by the positive lens is</strong> A) real and 40 cm from the positive lens. B) virtual and 20 cm from the positive lens. C) real and 20 cm from the positive lens. D) real and 13 cm from the positive lens. E) None of these is correct. <div style=padding-top: 35px> A negative lens with a focal length of -15 cm is 25 cm from a positive lens with a focal length of +20 cm on the same asix. Parallel light from the left is incident on the negative lens. The image formed by the positive lens is

A) real and 40 cm from the positive lens.
B) virtual and 20 cm from the positive lens.
C) real and 20 cm from the positive lens.
D) real and 13 cm from the positive lens.
E) None of these is correct.
Question
A lens forms an erect image of a real object. The image is twice the size of the object and appears to be 40 cm from the lens. Determine the power of the lens in diopters (D).

A) There is not sufficient information.
B) -2.5 D
C) +2.5 D
D) +7.5 D
E) None of these is correct.
Question
A positive lens of focal length 40 cm is placed 20 cm behind a negative lens of focal length -80 cm. An object is placed 240 cm in front of the negative lens. The final image distance relative to the positive lens is

A) -40 cm
B) 56 cm
C) -56 cm
D) 80 cm
E) -80 cm
Question
<strong> The graph shows the reciprocal of the image distance plotted against the reciprocal of the object distance for a certain lens. From this graph it can be seen that this lens has a focal length of</strong> A) 0.20 m B) 1.0 m C) 4.0 m D) 0.25 m E) -1.0 m <div style=padding-top: 35px> The graph shows the reciprocal of the image distance plotted against the reciprocal of the object distance for a certain lens. From this graph it can be seen that this lens has a focal length of

A) 0.20 m
B) 1.0 m
C) 4.0 m
D) 0.25 m
E) -1.0 m
Question
A converging lens and a screen are so arranged that an image of the sun falls on the screen. The distance from the lens to the screen is

A) the focal length.
B) the object distance.
C) the magnifying power.
D) one-half the radius of curvature of one of the lens faces.
E) the average radius of curvature of the two lens faces.
Question
A concave (diverging) lens can produce an image that is

A) virtual, inverted, and magnified.
B) real, erect, and magnified.
C) diminished, erect, and virtual.
D) magnified, erect, and virtual.
E) diminished, real, and erect.
Question
An object 5.0 cm tall is placed 15 cm in front of a converging lens of focal length
30 cm. The final image size is

A) 2.5 cm
B) 3.3 cm
C) 5.0 cm
D) 7.5 cm
E) 10 cm
Question
<strong> A double-convex lens is made of glass of index of refraction 1.60. If the radii of curvature of the two surfaces are 10 cm and 20 cm, the focal length of the lens in air is</strong> A) 11.1 cm B) -11.1 cm C) 25 cm D) 33.3 cm E) -33.3 cm <div style=padding-top: 35px> A double-convex lens is made of glass of index of refraction 1.60. If the radii of curvature of the two surfaces are 10 cm and 20 cm, the focal length of the lens in air is

A) 11.1 cm
B) -11.1 cm
C) 25 cm
D) 33.3 cm
E) -33.3 cm
Question
<strong> The image of the object formed by the diverging lens is located at point</strong> A) 1 B) 2 C) 3 D) 4 E) 5 <div style=padding-top: 35px> The image of the object formed by the diverging lens is located at point

A) 1
B) 2
C) 3
D) 4
E) 5
Question
The optical path for visible light in a lens is

A) the same as the geometrical path.
B) the same no matter what portion of the lens it passes through.
C) the same as the optical path for ultraviolet.
D) independent of the material of which the lens is constructed.
E) is increased when the index of refraction is increased.
Question
The objective of a certain lens system is a double-convex lens of 10.2 cm focal length; the eyepiece is a lens of 15.2 cm focal length and is placed 25.4 cm behind the objective. When an object is 30.5 cm in front of the objective, how far is the image from the eyepiece?

A) 44.2 cm
B) 30.5 cm
C) 5.08 cm
D) 22.1 cm
E) 61.0 cm
Question
When a human eye that has a power of +60 D is fitted with a contact lens of -10 D, the equivalent lens combination is

A) diverging and of focal length 2 cm.
B) converging and of focal length 50 cm.
C) converging and of focal length 2 cm.
D) focal length 0.02 cm.
E) focal length 0.2 cm.
Question
<strong> When the ray in the diagram is continued through the diverging lens, it passes through point</strong> A) 1 B) 2 C) 3 D) 4 E) 5 <div style=padding-top: 35px> When the ray in the diagram is continued through the diverging lens, it passes through point

A) 1
B) 2
C) 3
D) 4
E) 5
Question
<strong> The image produced by the converging lens is at point</strong> A) 1 B) 2 C) 3 D) 4 E) 5 <div style=padding-top: 35px> The image produced by the converging lens is at point

A) 1
B) 2
C) 3
D) 4
E) 5
Question
A double-convex lens is made of glass of refractive index 1.50. The radii of curvature of the surfaces are 10 cm and 20 cm. The focal length of this lens is

A) 4.45 cm
B) 13.3 cm
C) -13.3 cm
D) 40 cm
E) -40 cm
Question
<strong> An object is shown to the left of a converging lens of focal length f. A ray of light leaves the object and enters the lens. After this ray of light passes through the lens, it will go through point</strong> A) 1 B) 2 C) 3 D) 4 E) 5 <div style=padding-top: 35px> An object is shown to the left of a converging lens of focal length f. A ray of light leaves the object and enters the lens. After this ray of light passes through the lens, it will go through point

A) 1
B) 2
C) 3
D) 4
E) 5
Question
The focal length of a converging lens that projects the image of a lamp, magnified 4 times, onto a screen 3.05 m from the lamp is approximately

A) 11.6 cm
B) 48.8 cm
C) -11.6 cm
D) 2.04 m
E) 19.2 cm
Question
<strong> The image of the encircled point on the object formed in the positive lens is at which circle?</strong> A) 1 B) 2 C) 3 D) 4 E) 5 <div style=padding-top: 35px> The image of the encircled point on the object formed in the positive lens is at which circle?

A) 1
B) 2
C) 3
D) 4
E) 5
Question
<strong> The index of refraction of the lenses with respect to the medium is n. The diagram that correctly represents a wave front passing through a lens is</strong> A) 1 B) 2 C) 3 D) 4 E) 5 <div style=padding-top: 35px> The index of refraction of the lenses with respect to the medium is n. The diagram that correctly represents a wave front passing through a lens is

A) 1
B) 2
C) 3
D) 4
E) 5
Question
A concave-convex lens of flint glass has radii of 12 cm and 10 cm, respectively, and an index of refraction of 1.60. The focal length of this lens is

A) 100 cm
B) -100 cm
C) 9.1 cm
D) -9.1 cm
E) 14.5 cm
Question
An object is located 4 cm from a converging lens of focal length 3 cm. The magnitude of the magnification of the image is

A) 3
B) 4
C) 9
D) 12
E) 16
Question
An object is placed 200 cm from a screen. When a converging lens is placed between the object and screen at a distance of 160 cm from the object, an image is formed on the screen. Without moving the object or screen, an image can also be formed on the screen when the distance from the object to the lens is

A) 8 cm
B) 16 cm
C) 20 cm
D) 32 cm
E) 40 cm
Question
<strong> A ray of light is shown as it passes through a positive thin lens. If the grids are 1.0 cm apart on the figure, this lens has a focal length of</strong> A) 18 cm B) 12 cm C) 9.0 cm D) 6.0 cm E) 3.0 cm <div style=padding-top: 35px> A ray of light is shown as it passes through a positive thin lens. If the grids are 1.0 cm apart on the figure, this lens has a focal length of

A) 18 cm
B) 12 cm
C) 9.0 cm
D) 6.0 cm
E) 3.0 cm
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Deck 12: Optical Images
1
<strong> An object is placed between two mirrors set at an angle to each other. The location of the image of the object in mirror 1 is shown in the figure. The location of the image of that image in mirror 2 is at</strong> A) 1 B) 2 C) 3 D) 4 E) 5 An object is placed between two mirrors set at an angle to each other. The location of the image of the object in mirror 1 is shown in the figure. The location of the image of that image in mirror 2 is at

A) 1
B) 2
C) 3
D) 4
E) 5
3
2
A concave spherical mirror can produce which one of the following types of images?

A) virtual, inverted, and magnified
B) real, erect, and magnified
C) diminished, erect, and virtual
D) magnified, erect, and virtual
E) diminished, real, and erect
magnified, erect, and virtual
3
Two plane mirrors are arranged so that the reflecting surfaces face each other and are parallel. The mirrors are located at x = <strong>Two plane mirrors are arranged so that the reflecting surfaces face each other and are parallel. The mirrors are located at x = 2 m and x = 2 m. An object is located at X = 1 m. The second image from the left mirror is located at</strong> A) -4 m B) -5 m C) -6 m D) -8 m E) None of the above. 2 m and x = 2 m. An object is located at
X = 1 m. The second image from the left mirror is located at

A) -4 m
B) -5 m
C) -6 m
D) -8 m
E) None of the above.
-5 m
4
An object is placed 10 inches in front of a concave mirror that has a radius of curvature of 8 inches. The image is located

A) 4.75 inches in front of the mirror.
B) 4.75 inches behind the mirror.
C) 3 inches behind the mirror.
D) 6.67 inches behind the mirror.
E) 6.67 inches in front of the mirror.
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5
An object 25 cm from a convex mirror is observed to produce an image 13.6 cm behind the mirror. What is the focal length of the mirror?

A) 8.8 cm
B) -8.8 cm
C) 30 cm
D) -30 cm
E) -60 cm
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6
<strong> Two parallel rays are incident on a concave spherical mirror whose center of curvature is at 3. After being reflected, the two rays cross at point</strong> A) 1 B) 2 C) 3 D) 4 E) 5 Two parallel rays are incident on a concave spherical mirror whose center of curvature is at 3. After being reflected, the two rays cross at point

A) 1
B) 2
C) 3
D) 4
E) 5
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7
When an object is closer to a concave mirror than the mirror's focal point, the

A) magnification is less than one.
B) image distance is greater than the object distance.
C) magnification is equal to one.
D) image distance is negative.
E) image is inverted.
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8
An object 0.50 cm high is 5.0 cm from a concave spherical mirror of focal length 20 cm. How high is the image and is it erect or inverted?

A) 0.40 cm, inverted
B) 0.67 cm, erect
C) 0.50 cm, inverted
D) 0.67 cm, inverted
E) 0.40 cm, erect
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9
A concave spherical mirror has a radius of curvature of 50 cm. The image of an object located 35 cm in front of the mirror is

A) real, inverted, magnified 2.5 times, and 87.5 cm from the mirror.
B) real, erect, magnified 2.5 times, and 87.5 cm from the mirror.
C) virtual, erect, magnified 3.3 times, and 117 cm from the mirror.
D) real, inverted, magnified 3.3 times, and 117 cm from the mirror.
E) real, inverted, diminished 0.42 times, and 14.6 cm from the mirror.
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10
What is the minimum height of a plane mirror in which a standing woman can see her entire body reflected?

A) It must equal her height.
B) It depends on how far from the mirror the woman stands.
C) It depends on the focal length of the mirror.
D) It must be one-half her height.
E) It depends on the image distance.
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11
<strong> A point object P is placed before two mirrors at right angles as shown. Images of the object are formed only at positions</strong> A) 1, 2, and 3 B) 2, 3, and 4 C) 3, 4, and 5 D) 2 and 4 E) 1, 3, and 5 A point object P is placed before two mirrors at right angles as shown. Images of the object are formed only at positions

A) 1, 2, and 3
B) 2, 3, and 4
C) 3, 4, and 5
D) 2 and 4
E) 1, 3, and 5
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12
The image of an object located 10 cm from a concave spherical mirror of radius 10 cm is

A) real, inverted, and magnified.
B) real, inverted, and diminished.
C) real, inverted, and the same size.
D) virtual, erect, and magnified.
E) virtual, erect, and diminished.
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13
When an object is farther from a convex mirror than the mirror's focal point, the

A) magnification is less than one.
B) image distance is greater than the object distance.
C) magnification is equal to one.
D) image is real.
E) image is inverted.
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14
The technical name for the type of image formed by a single plane mirror is

A) a real image.
B) an inverted image.
C) an enlarged image.
D) a focal image.
E) a virtual image.
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15
When an object is farther from a concave mirror than twice the mirror's focal length, the

A) magnification is less than one.
B) image is inverted.
C) image distance is less than the object distance.
D) image is real.
E) All of these are correct.
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16
When an object is closer to a convex mirror than the mirror's focal point, the

A) magnification is less than one.
B) image distance is greater than the object distance.
C) magnification is equal to one.
D) image is real.
E) image is inverted.
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17
<strong> Two plane mirrors make an angle of 120° as shown. An object is placed at O. When the eye is placed at E, it will observe images formed at</strong> A) 1 and 2 B) 2 and 3 C) 3 and 4 D) 1 and 4 E) 1 and 3 Two plane mirrors make an angle of 120° as shown. An object is placed at O. When the eye is placed at E, it will observe images formed at

A) 1 and 2
B) 2 and 3
C) 3 and 4
D) 1 and 4
E) 1 and 3
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18
When you look at the image reflected from two plane mirrors placed at 90 °\degree , the image

A) is real.
B) is inverted.
C) does not change handiness.
D) is compressed in the vertical direction.
E) None of the above statements is true.
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19
<strong> The parallel rays incident on the surface of the concave spherical mirror in the figure converge to a point at</strong> A) 1 B) 2 C) 3 D) 4 E) 5 The parallel rays incident on the surface of the concave spherical mirror in the figure converge to a point at

A) 1
B) 2
C) 3
D) 4
E) 5
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20
<strong> The image of an object, placed in front of a spherical convex mirror as shown, forms between</strong> A) O and V and is magnified. B) V and F and is magnified. C) V and F and is diminished. D) F and C and is diminished. E) F and C and is magnified. The image of an object, placed in front of a spherical convex mirror as shown, forms between

A) O and V and is magnified.
B) V and F and is magnified.
C) V and F and is diminished.
D) F and C and is diminished.
E) F and C and is magnified.
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21
Dentists often use concave mirrors to see better. In order for the mirror to produce an enlarged image of a tooth, the tooth must be placed

A) at the focal point of the mirror.
B) further than the focal point of the mirror.
C) closer than the focal point of the mirror.
D) at any distance.
E) Concave mirrors cannot produce an enlarged image.
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22
An object is placed 4.24 cm in front of a concave mirror that has a radius of curvature of 20.3 cm. The image is located

A) 12.1 cm in front of the mirror.
B) 12.1 cm behind the mirror.
C) 7.62 cm behind the mirror.
D) 16.9 cm behind the mirror.
E) 16.9 cm in front of the mirror.
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23
An object is 10 cm from a concave spherical mirror whose radius is 10 cm. The image is

A) real, inverted, and magnified.
B) real, inverted, and diminished.
C) real, inverted, and the same size.
D) virtual, erect, and magnified.
E) virtual, erect, and diminished.
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24
<strong> Your eye looks into a thick glass slab at an air bubble located at point 3. The bubble appears to be at point</strong> A) 1 B) 2 C) 3 D) 4 E) 5 Your eye looks into a thick glass slab at an air bubble located at point 3. The bubble appears to be at point

A) 1
B) 2
C) 3
D) 4
E) 5
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25
A circular coin is 33.3 cm from a concave spherical mirror. (Assume the coin is on the optical axis.) The image of the coin is produced 10.0 cm from the mirror and on the same side as its real position. If the coin is moved to a position 23.3 cm from the mirror, calculate how far from the mirror the new image is:

A) 13.7 cm
B) 10.0 cm
C) 15.1 cm
D) 8.35 cm
E) 11.5 cm
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26
A cat is watching a goldfish in a spherical fishbowl of radius 15.0 cm. The goldfish is 5.00 cm from the side of the bowl nearest the cat. How far from the side of the bowl does the fish appear to be to the cat? (For water, n = 1.33.)

A) 7.5 cm
B) 4.5 cm
C) 4.1 cm
D) 3.5 cm
E) 2.5 cm
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27
A circular coin is 33.3 cm from a concave spherical mirror. (Assume the coin is on the optical axis.) The image of the coin is produced 23.3 cm towards the mirror from its real position. Calculate the focal length of the mirror.

A) 15.4 cm
B) 7.69 cm
C) 13.7 cm
D) 27.4 cm
E) 10.0 cm
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28
A real object in front of a concave spherical mirror can produce an image that is

A) virtual, inverted, and magnified.
B) real, erect, and magnified.
C) diminished, erect, and virtual.
D) magnified, erect, and virtual.
E) diminished, real, and erect.
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29
The lens of a slide projector has a focal length of +12.0 cm. A slide 12.6 cm to the left of the lens forms the object for the lens. The screen should be placed

A) 25 cm to the left of the lens.
B) 25 cm to the right of the lens.
C) 250 cm to the left of the lens.
D) 250 cm to the right of the lens.
E) 390 cm to the right of the lens.
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30
<strong> An object is located 3 cm from the surface of a silvered spherical glass Christmas tree ornament that is 3 cm in diameter. The image forms at</strong> A) 1 B) 2 C) 3 D) 4 E) 5 An object is located 3 cm from the surface of a silvered spherical glass Christmas tree ornament that is 3 cm in diameter. The image forms at

A) 1
B) 2
C) 3
D) 4
E) 5
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31
<strong> Your eye looks into a thick glass slab at an air bubble located at point 3. The bubble appears to be at point</strong> A) 1 B) 2 C) 3 D) 4 E) 5 Your eye looks into a thick glass slab at an air bubble located at point 3. The bubble appears to be at point

A) 1
B) 2
C) 3
D) 4
E) 5
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32
<strong> An object is located 7.62 com from the surface of a silvered spherical glass Christmas tree ornament that is 7.62 com in diameter. The image distance is approximately</strong> A) 1.52 cm B) -1.52 cm C) 4.24 cm D) -4.24 cm E) infinity because no image is formed. An object is located 7.62 com from the surface of a silvered spherical glass Christmas tree ornament that is 7.62 com in diameter. The image distance is approximately

A) 1.52 cm
B) -1.52 cm
C) 4.24 cm
D) -4.24 cm
E) infinity because no image is formed.
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33
Two parallel mirrors are a distance d apart. An object is placed 1.0 inch in front of the right-hand mirror. After 5 reflections, with the first reflection from the right-hand mirror, an image is located 17 inches behind the right-hand mirror. Calculate the distance between the mirrors.

A) 5.3 in
B) 3.2 in
C) 6.0 in
D) 4.0 in
E) 3.6 in
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34
<strong> Which of the following statements about the figure is correct when the index of refraction n<sub>2</sub> is greater than n<sub>1</sub>?</strong> A) The object distance is greater than the image distance. B) The image distance may be positive or negative. C) The radius of curvature is negative. D) The magnitude of the magnification is less than one. E) The object distance is positive. Which of the following statements about the figure is correct when the index of refraction n2 is greater than n1?

A) The object distance is greater than the image distance.
B) The image distance may be positive or negative.
C) The radius of curvature is negative.
D) The magnitude of the magnification is less than one.
E) The object distance is positive.
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35
A convenience's store clerk observes at shopper 4 m in front of a convex mirror. The image of the shopper is located 1.5 m behind the mirror. The focal length of the mirror is

A) -2.5 m
B)-2.4 m
C) -0.67 m
D)-1.1 m
E) none of the above
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36
An object is placed between 2f and infinity in front of a concave mirror of focal length f. The image is located

A) behind the mirror, between 2f and the mirror.
B) behind the mirror, between 2f and infinity.
C) in front of the mirror, between the mirror and f.
D) in front of the mirror, between f and the center of curvature.
E) in front of the mirror, between the center of curvature and infinity.
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37
The clear water of a lake is 1.5 m deep at the end of a dock. You look directly down from the end of the dock and see a rock on the bottom of the lake. How far below the surface does the rock appear to be? (For water, n = 1.33.)

A) 2.0 m
B) 1.5 m
C) 1.1 m
D) 0.75 m
E) 1.8 m
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38
When you stand in water up to your knees, your feet appear

A) closer than usual.
B) farther away than usual.
C) at the same location as usual.
D) To answer this you must know your height and the depth of the water.
E) To answer this you must know the index of refraction of water.
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39
<strong> Half-round slabs of glass or plastic are often used to trace rays. Pins are placed at points P and Q. For an observer to see the images of the pins in line, she should place her eye at point</strong> A) 1 B) 2 C) 3 D) 4 E) 5 Half-round slabs of glass or plastic are often used to trace rays. Pins are placed at points P and Q. For an observer to see the images of the pins in line, she should place her eye at point

A) 1
B) 2
C) 3
D) 4
E) 5
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40
How far must a man's face be located in front of a concave spherical shaving mirror of radius 120 cm for him to see an erect image of his face four times its real size?

A) -75 cm
B) 45 cm
C) 75 cm
D) 90 cm
E) 150 cm
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41
<strong> A negative lens with a focal length of -10.0 cm is on the same axis as a positive lens with a focal length of +20.0 cm as illustrated. The distance between the lenses is 20.0 cm. A real object 3.00 cm high is placed 20.0 cm to the left of the negative lens. After the light has passed through both lenses, the image is</strong> A) 3.0 cm high and virtual. B) 1.0 cm high and virtual. C) 1.0 cm high and real. D) 3.0 cm high and real. E) None of these is correct. A negative lens with a focal length of -10.0 cm is on the same axis as a positive lens with a focal length of +20.0 cm as illustrated. The distance between the lenses is 20.0 cm. A real object 3.00 cm high is placed 20.0 cm to the left of the negative lens. After the light has passed through both lenses, the image is

A) 3.0 cm high and virtual.
B) 1.0 cm high and virtual.
C) 1.0 cm high and real.
D) 3.0 cm high and real.
E) None of these is correct.
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42
<strong> Two lenses, one with a focal length f<sub>1</sub> = +20 cm and the other with a focal length f<sub>2 </sub> = -20 cm, are on the same axis and 60 cm apart as shown. A real object is 40 cm to the left of the positive lens. The image formed by the negative lens is</strong> A) real and 10 cm from the negative lens. B) virtual and 10 cm from the negative lens. C) at infinity. D) virtual and 20 cm from the negative lens. E) None of these is correct. Two lenses, one with a focal length f1 = +20 cm and the other with a focal length f2 = -20 cm, are on the same axis and 60 cm apart as shown. A real object is 40 cm to the left of the positive lens. The image formed by the negative lens is

A) real and 10 cm from the negative lens.
B) virtual and 10 cm from the negative lens.
C) at infinity.
D) virtual and 20 cm from the negative lens.
E) None of these is correct.
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43
A thin converging lens made of Crown glass (n = 1.517) is flat on one side and has a radius of curvature of 50 cm on the other side. An object is placed 45.0 cm to the left of this lens. Where is the image?

A) 120 cm to the right of the lens
B) 31 cm to the left of the lens
C) 31 cm to the right of the lens
D) 84 cm to the right of the lens
E) 84 cm to the left of the lens
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44
A positive lens has a focal length f. The image is the same size as the object when

A) the object is at the focal point.
B) the image is on the opposite side of the lens from the object and is the same distance from the lens as the object.
C) the image is on the same side of the lens as the object and is the same distance from the lens as the object.
D) The image can never be the same size as the object.
E) None of these is correct.
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45
A real object is 42 cm from a negative lens with f = -21 cm. The image is

A) real and 14 cm from the lens.
B) real and 42 cm from the lens.
C) virtual and 42 cm from the lens.
D) virtual and 21 cm from the lens.
E) virtual and 14 cm from the lens.
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46
An object 2 cm high is placed 20 cm from a thin convex lens that has a focal length of 10 cm. Which of the following statements describes the image formed?

A) It is 2 cm high.
B) It is 20 cm from the lens.
C) It is inverted.
D) It is real.
E) All of these are correct.
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47
<strong> A real image is formed by a converging lens. If a weak diverging lens is placed between the converging lens and the image, where is the new image located?</strong> A) between the object and the converging lens B) farther from the converging lens than the original image C) closer to the converging lens than the original image D) at the original image position E) It might be either between the object and the converging lens or to the right of the diverging lens. A real image is formed by a converging lens. If a weak diverging lens is placed between the converging lens and the image, where is the new image located?

A) between the object and the converging lens
B) farther from the converging lens than the original image
C) closer to the converging lens than the original image
D) at the original image position
E) It might be either between the object and the converging lens or to the right of the diverging lens.
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48
A real object is 30 cm from a negative lens that has a focal length f = -20 cm. The image is

A) virtual and 30 cm from the lens.
B) real and 12 cm from the lens.
C) virtual and 12 cm from the lens.
D) real and 20 cm from the lens.
E) None of these is correct.
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49
To project an image onto a screen using a lens,

A) the lens must be diverging and the object must be farther from the lens than the second focal point.
B) the lens must be converging and the object must be between the first focal point and the lens.
C) the lens must be diverging and the image must be farther from the lens than the second focal point.
D) the lens must be converging and the object must be farther from the lens than the first focal point.
E) the lens must be diverging and the object must be between the first focal point and the lens.
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50
Which of the following statements is false?

A) The image produced by a diverging lens is always virtual, upright, and reduced in size.
B) The image produced by a converging lens can be virtual, upright, and magnified in size.
C) The image produced by a converging lens can never virtual, upright, and reduced in size.
D) To produce a real image, an object has to be place further away than the focal point of a converging lens.
E) The image produced by a converging lens cannot be real, inverted, and reduced in size.
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51
<strong> A plano-concave lens has r<sub>1</sub> = 15 cm and is constructed of a material with refractive index of 1.5. The focal length of the lens is</strong> A) -15 cm B) 15 cm C) -30 cm D) 30 cm E) None of these is correct. A plano-concave lens has r1 = 15 cm and is constructed of a material with refractive index of 1.5. The focal length of the lens is

A) -15 cm
B) 15 cm
C) -30 cm
D) 30 cm
E) None of these is correct.
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52
A positive lens has a focal length f. The only way to get a magnification of -1 is to

A) place a real object at the focal point.
B) place a real object at a distance 2f from the lens.
C) place a virtual object at a distance 2f from the lens.
D) Magnifications can never be negative.
E) None of these is correct.
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53
<strong> An object placed 4 cm to the left of a positive lens of focal length 2 cm produces an image 4 cm to the right of the lens. A negative lens placed at the focal point of the positive lens as shown produces a final image 6 cm to the right of the negative lens. The negative lens has a focal length of</strong> A) -1.5 cm B) -3.0 cm C) -6.0 cm D) 10 cm E) -2.0 cm An object placed 4 cm to the left of a positive lens of focal length 2 cm produces an image 4 cm to the right of the lens. A negative lens placed at the focal point of the positive lens as shown produces a final image 6 cm to the right of the negative lens. The negative lens has a focal length of

A) -1.5 cm
B) -3.0 cm
C) -6.0 cm
D) 10 cm
E) -2.0 cm
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54
An object is located 3 cm in front of a converging lens of focal length 2 cm. A diverging lens of -6 cm focal length is placed 3 cm on the other side of the converging lens. What is the final image distance with respect to the diverging lens?

A) \infty
B) 2 cm
C) -2 cm
D) 6 cm
E) -6 cm
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55
<strong> An object is placed in front of a plano-concave lens at r<sub>1</sub>/2. The image produced by the lens is</strong> A) inverted, real, and reduced in size. B) inverted, virtual, and enlarged in size. C) upright, virtual, and reduced in size. D) upright, virtual, and enlarged in size. E) upright, real, and enlarged in size. An object is placed in front of a plano-concave lens at r1/2. The image produced by the lens is

A) inverted, real, and reduced in size.
B) inverted, virtual, and enlarged in size.
C) upright, virtual, and reduced in size.
D) upright, virtual, and enlarged in size.
E) upright, real, and enlarged in size.
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56
A real object is 42.1 cm from a negative lens that has a focal length of 25.6 cm. The object is 2.45 mm high. The height and orientation of the image are

A) 3.8 mm and inverted.
B) 0.93 mm and erect.
C) 6.4 mm and erect.
D) 0.38 mm and erect.
E) None of these is correct.
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57
<strong> When a real object is placed just inside the focal point F of a diverging lens, the image is</strong> A) virtual, erect, and diminished. B) real, inverted, and enlarged. C) real, inverted, and diminished. D) virtual, erect, and enlarged. E) virtual, inverted, and diminished. When a real object is placed just inside the focal point F of a diverging lens, the image is

A) virtual, erect, and diminished.
B) real, inverted, and enlarged.
C) real, inverted, and diminished.
D) virtual, erect, and enlarged.
E) virtual, inverted, and diminished.
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58
<strong> A negative lens with a focal length of -15 cm is 25 cm from a positive lens with a focal length of +20 cm on the same asix. Parallel light from the left is incident on the negative lens. The image formed by the positive lens is</strong> A) real and 40 cm from the positive lens. B) virtual and 20 cm from the positive lens. C) real and 20 cm from the positive lens. D) real and 13 cm from the positive lens. E) None of these is correct. A negative lens with a focal length of -15 cm is 25 cm from a positive lens with a focal length of +20 cm on the same asix. Parallel light from the left is incident on the negative lens. The image formed by the positive lens is

A) real and 40 cm from the positive lens.
B) virtual and 20 cm from the positive lens.
C) real and 20 cm from the positive lens.
D) real and 13 cm from the positive lens.
E) None of these is correct.
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59
A lens forms an erect image of a real object. The image is twice the size of the object and appears to be 40 cm from the lens. Determine the power of the lens in diopters (D).

A) There is not sufficient information.
B) -2.5 D
C) +2.5 D
D) +7.5 D
E) None of these is correct.
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60
A positive lens of focal length 40 cm is placed 20 cm behind a negative lens of focal length -80 cm. An object is placed 240 cm in front of the negative lens. The final image distance relative to the positive lens is

A) -40 cm
B) 56 cm
C) -56 cm
D) 80 cm
E) -80 cm
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61
<strong> The graph shows the reciprocal of the image distance plotted against the reciprocal of the object distance for a certain lens. From this graph it can be seen that this lens has a focal length of</strong> A) 0.20 m B) 1.0 m C) 4.0 m D) 0.25 m E) -1.0 m The graph shows the reciprocal of the image distance plotted against the reciprocal of the object distance for a certain lens. From this graph it can be seen that this lens has a focal length of

A) 0.20 m
B) 1.0 m
C) 4.0 m
D) 0.25 m
E) -1.0 m
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62
A converging lens and a screen are so arranged that an image of the sun falls on the screen. The distance from the lens to the screen is

A) the focal length.
B) the object distance.
C) the magnifying power.
D) one-half the radius of curvature of one of the lens faces.
E) the average radius of curvature of the two lens faces.
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63
A concave (diverging) lens can produce an image that is

A) virtual, inverted, and magnified.
B) real, erect, and magnified.
C) diminished, erect, and virtual.
D) magnified, erect, and virtual.
E) diminished, real, and erect.
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64
An object 5.0 cm tall is placed 15 cm in front of a converging lens of focal length
30 cm. The final image size is

A) 2.5 cm
B) 3.3 cm
C) 5.0 cm
D) 7.5 cm
E) 10 cm
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65
<strong> A double-convex lens is made of glass of index of refraction 1.60. If the radii of curvature of the two surfaces are 10 cm and 20 cm, the focal length of the lens in air is</strong> A) 11.1 cm B) -11.1 cm C) 25 cm D) 33.3 cm E) -33.3 cm A double-convex lens is made of glass of index of refraction 1.60. If the radii of curvature of the two surfaces are 10 cm and 20 cm, the focal length of the lens in air is

A) 11.1 cm
B) -11.1 cm
C) 25 cm
D) 33.3 cm
E) -33.3 cm
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66
<strong> The image of the object formed by the diverging lens is located at point</strong> A) 1 B) 2 C) 3 D) 4 E) 5 The image of the object formed by the diverging lens is located at point

A) 1
B) 2
C) 3
D) 4
E) 5
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67
The optical path for visible light in a lens is

A) the same as the geometrical path.
B) the same no matter what portion of the lens it passes through.
C) the same as the optical path for ultraviolet.
D) independent of the material of which the lens is constructed.
E) is increased when the index of refraction is increased.
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68
The objective of a certain lens system is a double-convex lens of 10.2 cm focal length; the eyepiece is a lens of 15.2 cm focal length and is placed 25.4 cm behind the objective. When an object is 30.5 cm in front of the objective, how far is the image from the eyepiece?

A) 44.2 cm
B) 30.5 cm
C) 5.08 cm
D) 22.1 cm
E) 61.0 cm
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69
When a human eye that has a power of +60 D is fitted with a contact lens of -10 D, the equivalent lens combination is

A) diverging and of focal length 2 cm.
B) converging and of focal length 50 cm.
C) converging and of focal length 2 cm.
D) focal length 0.02 cm.
E) focal length 0.2 cm.
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70
<strong> When the ray in the diagram is continued through the diverging lens, it passes through point</strong> A) 1 B) 2 C) 3 D) 4 E) 5 When the ray in the diagram is continued through the diverging lens, it passes through point

A) 1
B) 2
C) 3
D) 4
E) 5
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71
<strong> The image produced by the converging lens is at point</strong> A) 1 B) 2 C) 3 D) 4 E) 5 The image produced by the converging lens is at point

A) 1
B) 2
C) 3
D) 4
E) 5
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72
A double-convex lens is made of glass of refractive index 1.50. The radii of curvature of the surfaces are 10 cm and 20 cm. The focal length of this lens is

A) 4.45 cm
B) 13.3 cm
C) -13.3 cm
D) 40 cm
E) -40 cm
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73
<strong> An object is shown to the left of a converging lens of focal length f. A ray of light leaves the object and enters the lens. After this ray of light passes through the lens, it will go through point</strong> A) 1 B) 2 C) 3 D) 4 E) 5 An object is shown to the left of a converging lens of focal length f. A ray of light leaves the object and enters the lens. After this ray of light passes through the lens, it will go through point

A) 1
B) 2
C) 3
D) 4
E) 5
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74
The focal length of a converging lens that projects the image of a lamp, magnified 4 times, onto a screen 3.05 m from the lamp is approximately

A) 11.6 cm
B) 48.8 cm
C) -11.6 cm
D) 2.04 m
E) 19.2 cm
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75
<strong> The image of the encircled point on the object formed in the positive lens is at which circle?</strong> A) 1 B) 2 C) 3 D) 4 E) 5 The image of the encircled point on the object formed in the positive lens is at which circle?

A) 1
B) 2
C) 3
D) 4
E) 5
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76
<strong> The index of refraction of the lenses with respect to the medium is n. The diagram that correctly represents a wave front passing through a lens is</strong> A) 1 B) 2 C) 3 D) 4 E) 5 The index of refraction of the lenses with respect to the medium is n. The diagram that correctly represents a wave front passing through a lens is

A) 1
B) 2
C) 3
D) 4
E) 5
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77
A concave-convex lens of flint glass has radii of 12 cm and 10 cm, respectively, and an index of refraction of 1.60. The focal length of this lens is

A) 100 cm
B) -100 cm
C) 9.1 cm
D) -9.1 cm
E) 14.5 cm
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78
An object is located 4 cm from a converging lens of focal length 3 cm. The magnitude of the magnification of the image is

A) 3
B) 4
C) 9
D) 12
E) 16
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79
An object is placed 200 cm from a screen. When a converging lens is placed between the object and screen at a distance of 160 cm from the object, an image is formed on the screen. Without moving the object or screen, an image can also be formed on the screen when the distance from the object to the lens is

A) 8 cm
B) 16 cm
C) 20 cm
D) 32 cm
E) 40 cm
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80
<strong> A ray of light is shown as it passes through a positive thin lens. If the grids are 1.0 cm apart on the figure, this lens has a focal length of</strong> A) 18 cm B) 12 cm C) 9.0 cm D) 6.0 cm E) 3.0 cm A ray of light is shown as it passes through a positive thin lens. If the grids are 1.0 cm apart on the figure, this lens has a focal length of

A) 18 cm
B) 12 cm
C) 9.0 cm
D) 6.0 cm
E) 3.0 cm
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