EBK COLLEGE PHYSICS, VOLUME 2
EBK COLLEGE PHYSICS, VOLUME 2
11th Edition
ISBN: 8220103599924
Author: Vuille
Publisher: CENGAGE L
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Chapter 23, Problem 52AP

The object in Figure P23.52 is mid-way between the lens and the mirror, which are separated by a distance d = 25.0 cm. The magnitude of the mirror’s radius of curvature is 20.0 cm, and the lens has a focal length of –16.7 cm. (a) Considering only the light that leaves the object and travels first toward the mirror, locate the final image formed by this system. (b) Is the image real or virtual? (c) Is it upright or inverted? (d) What is the overall magnification of the image?

Chapter 23, Problem 52AP, The object in Figure P23.52 is mid-way between the lens and the mirror, which are separated by a

Figure P23.52

(a)

Expert Solution
Check Mark
To determine
The position of the final image.

Answer to Problem 52AP

The position of the final image is located 25.3cm behind (to the right of) the mirror.

Explanation of Solution

Given info:

The distance between the lens and mirror is 25.0cm .

The radius of curvature is 20.0cm .

The focal length is 16.7cm .

Explanation:

Formula to calculate the object distance for the mirror is,

p=d2

  • p is the object distance
  • d is distance between the lens and mirror

Substitute 25.0cm for d to find p .

p=25.0cm3=12.5cm

Therefore, the position of the object for the mirror is 12.5cm .

Formula to calculate the first image distance is,

q=1(2R1p)

  • q is the image distance
  • p is the object distance
  • R is the radius of curvature

Substitute 12.5cm for p and 20.0cm for R to find q .

q=1(220.0cm112.5cm)=+50.0cm

Therefore, the position of the first image is +50.0cm .

This image is the object for the lens. Formula to calculate the object distance for the lens is,

p'=dq

  • p' is the object distance

Substitute 25.0cm for d and +50.0cm for q to find p' .

p'=25.0cm50.0cm    =25.0cm

Therefore, the position of the object is 25.0cm .

Formula to calculate the image distance for the lens is,

q'=1(1f'1p')

  • q' is the image distance
  • p' is the object distance
  • f' is the focal length

Substitute 300m for p' and 50.0cm for f' to find q' .

q'=1(1(16.7cm)1(25.0cm))=50.3cm

Therefore, the position of the image from mirror is 50.3cm in front of (to the right of) the lens.

Formula to calculate the final position of the image is,

q''=q'+d

  • q'' is the final image distance

Substitute 25.0cm for d and 50.3 cm for q' to find q'' .

q''=50.3cm+25.0cm    =25.3cm

Thus, the position of the final image is located 25.3cm behind (to the right of) the mirror.

Conclusion:

The position of the final image is located 25.3cm behind (to the right of) the mirror.

(b)

Expert Solution
Check Mark
To determine
The characteristics of the image.

Answer to Problem 52AP

The final image is virtual.

Explanation of Solution

The final image position is less than zero. Thus, the final image is virtual.

Conclusion:

The final image is virtual.

(c)

Expert Solution
Check Mark
To determine
The total magnification of the system.

Answer to Problem 52AP

The total magnification of the system is +8.05 .

Explanation of Solution

Given info:

Explanation:

Formula to calculate the total magnification of the system is,

M=M1M2=(qp)(q'p')

  • M is the magnification of the total system
  • M1 is the magnification of first image
  • M2 is the magnification of second image

Substitute 50.0cm for q ,   12.5cm for p , 50.3cm for q' and 25.0cm for p' to find M .

M=(50.0cm12.5cm)(50.3cm25.0cm)=+8.05

Thus, the total magnification of the system is +8.05 .

Conclusion:

The total magnification of the system is +8.05 .

(d)

Expert Solution
Check Mark
To determine
The characteristics of the image.

Answer to Problem 52AP

The final image is upright.

Explanation of Solution

The magnification is greater than zero. Thus, the final image is upright.

Conclusion:

The final image is upright.

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Chapter 23 Solutions

EBK COLLEGE PHYSICS, VOLUME 2

Ch. 23 - Construct ray diagrams to determine whether each...Ch. 23 - Prob. 6CQCh. 23 - Suppose you want to use a converging lens to...Ch. 23 - Lenses used in eyeglasses, whether converging or...Ch. 23 - In a Jules Verne novel, a piece of ice is shaped...Ch. 23 - If a cylinder of solid glass or clear plastic is...Ch. 23 - Prob. 11CQCh. 23 - Prob. 12CQCh. 23 - Why does the focal length of a mirror not depend...Ch. 23 - A person spear fishing from a boat sees a...Ch. 23 - An object represented by a gray arrow, is placed...Ch. 23 - (a) Does your bathroom mirror show you older or...Ch. 23 - Suppose you stand in front of a flat mirror and...Ch. 23 - Prob. 3PCh. 23 - In a church choir loft, two parallel walls are...Ch. 23 - A periscope (Fig. P23.5) is useful for viewing...Ch. 23 - A dentist uses a mirror to examine a tooth that is...Ch. 23 - A convex spherical mirror, whose focal length has...Ch. 23 - To fit a contact lens to a patient's eye, a...Ch. 23 - A virtual image is formed 20.0 cm from a concave...Ch. 23 - While looking at her image in a cosmetic minor,...Ch. 23 - Prob. 11PCh. 23 - A dedicated sports car enthusiast polishes the...Ch. 23 - A concave makeup mirror it designed to that a...Ch. 23 - A 1.80-m-tall person stands 9.00 m in front of a...Ch. 23 - A man standing 1.52 m in front of a shaving mirror...Ch. 23 - Prob. 16PCh. 23 - At an intersection of hospital hallways, a convex...Ch. 23 - The mirror of a solar cooker focuses the Suns rays...Ch. 23 - A spherical mirror is to be used to form an image,...Ch. 23 - Prob. 20PCh. 23 - A cubical block of ice 50.0 cm on an edge is...Ch. 23 - A goldfish is swimming inside a spherical bowl of...Ch. 23 - A paperweight is made of a solid hemisphere with...Ch. 23 - The top of a swimming pool is at ground level. If...Ch. 23 - A transparent sphere of unknown composition is...Ch. 23 - A man inside a spherical diving bell watches a...Ch. 23 - A jellyfish is floating in a water-filled aquarium...Ch. 23 - Figure P23.28 shows a curved surface separating a...Ch. 23 - A contact lens is made of plastic with an index of...Ch. 23 - A thin plastic lens with index of refraction n =...Ch. 23 - A converging lens has a local length of 10.0 cm....Ch. 23 - Prob. 32PCh. 23 - A diverging lens has a focal length of magnitude...Ch. 23 - A diverging lens has a focal length of 20.0 cm....Ch. 23 - Prob. 35PCh. 23 - The nickels image in Figure P23.36 has twice the...Ch. 23 - An object of height 8.00 cm it placed 25.0 cm to...Ch. 23 - An object is located 20.0 cm to the left of a...Ch. 23 - A converging lens is placed 30.0 cm to the right...Ch. 23 - (a) Use the thin-lens equation to derive an...Ch. 23 - Two converging lenses, each of focal length 15.0...Ch. 23 - A converging lens is placed at x = 0, a distance d...Ch. 23 - A 1.00-cm-high object is placed 4.00 cm to the...Ch. 23 - Two converging lenses having focal length of f1 =...Ch. 23 - Lens L1 in figure P23.45 has a focal length of...Ch. 23 - An object is placed 15.0 cm from a first...Ch. 23 - Prob. 47APCh. 23 - Prob. 48APCh. 23 - Prob. 49APCh. 23 - Prob. 50APCh. 23 - The lens and the mirror in figure P23.51 are...Ch. 23 - The object in Figure P23.52 is mid-way between the...Ch. 23 - Prob. 53APCh. 23 - Two rays travelling parallel to the principal axis...Ch. 23 - To work this problem, use the fact that the image...Ch. 23 - Consider two thin lenses, one of focal length f1...Ch. 23 - An object 2.00 cm high is placed 10.0 cm to the...Ch. 23 - Prob. 58APCh. 23 - Figure P23.59 shows a converging lens with radii...Ch. 23 - Prob. 60APCh. 23 - The lens-makers equation for a lens with index n1...Ch. 23 - An observer to the right of the mirror-lens...Ch. 23 - The lens-markers equation applies to a lens...Ch. 23 - Prob. 64APCh. 23 - A glass sphere (n = 1.50) with a radius of 15.0 cm...Ch. 23 - An object 10.0 cm tall is placed at the zero mark...
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