EBK PHYSICS FOR SCIENTISTS AND ENGINEER
EBK PHYSICS FOR SCIENTISTS AND ENGINEER
9th Edition
ISBN: 9781305804463
Author: Jewett
Publisher: CENGAGE LEARNING - CONSIGNMENT
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Chapter 36, Problem 36.78AP

Two converging lenses having focal lengths of f1 = 10.0 cm and f2 = 20.0 cm are placed a distance d = 50.0 cm apart as shown in Figure P35.48. The image due to light passing through both lenses is to be located between the lenses at the position x = 31.0 cm indicated. (a) At what value of p should the object be positioned to the left of the first lens? (b) What is the magnification of the final image? (c) Is the final image upright or inverted? (d) Is the final image real or virtual?

Chapter 36, Problem 36.78AP, Two converging lenses having focal lengths of f1 = 10.0 cm and f2 = 20.0 cm are placed a distance d

(a)

Expert Solution
Check Mark
To determine
The value of p at which the object should be placed to the left of the first lens.

Answer to Problem 36.78AP

The value of p at which the object should be placed to the left of the first lens is 13.3cm distance in front of the first lens.

Explanation of Solution

Given info: The focal length of first lens f1 is 10.0cm , the focal length of second lens f2 is 20.0cm , the distance between lenses d is 50.0cm and the image due to the light passing through both the lenses is to be located between the lenses at a distance 31.0cm .

Write the expression for the final image distance q2 .

q2=(dx)

Here,

q2 is the final image distance.

d is the distance between the lenses.

x is the distance between the image position and first lens.

Substitute 50.0cm for d and 31.0cm for x in the above equation to get the final image distance.

q2=(50.0cm31.0cm)=19.0cm

Write the expression for the thin lens equation.

1p2+1q2=1f2p2=q2f2q2f2

Here,

p2 is the object distance to the second lens.

f2 is the focal length of the second lens.

Substitute 19.0cm for q2 and 20.0cm for f2 in the above equation to get the object distance from the second lens.

p2=(19.0cm)(20.0cm)(19.0cm)(20.0cm)=380cm239.0cm=9.74cm

The image distance to the first lens q1 is,

q1=dp2

Here,

q1 is the image distance to the first lens.

Substitute 50.0cm for d and 9.74cm for p2 in the above equation to get the image distance to the first lens.

q1=50.0cm9.74cm=40.26cm

Formula to calculate the thin lens equation is,

1p+1q1=1f1p=q1f1q1f1

Here,

p is the object distance to the first lens.

f1  is the focal length of the first lens.

Substitute 40.26cm for q1 and 10.0cm for f1 in the above equation to get the object distance to the first lens.

p=(40.26cm)(10.0cm)(40.26cm)(10.0cm)=13.3cm

Conclusion:

Therefore, the value of p at which the object should be placed to the left of the first lens is 13.3cm distance in front of the first lens.

(b)

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

Answer to Problem 36.78AP

The magnification of the final image is 5.91 .

Explanation of Solution

Given info: The focal length of first lens f1 is 10.0cm , the focal length of second lens f2 is 20.0cm , the distance between lenses d is 50.0cm and the image due to the light passing through both the lenses is to be located between the lenses at a distance 31.0cm .

Write the equation for magnification of the first lens.

M1=qlp

Write the equation for magnification of the second lens.

M2=q2p2

Write the equation for magnification of the final image.

M=M1M2

Substitute (q1p) for M1 and (q2p2) for M2 in the above equation.

M=(q1p)(q2p2)=q1q2pp2

Substitute 40.26cm for q1 , 19.0cm for q2 , 13.3cm for p and 9.74cm for p2 in the above equation to get the magnification of the final image.

M=(40.26cm)(19.0cm)(13.3cm)(9.74cm)=5.91

Conclusion:

Therefore, the magnification of the final image is 5.91 .

(c)

Expert Solution
Check Mark
To determine
Whether the final image is upright or inverted.

Answer to Problem 36.78AP

The final image is inverted.

Explanation of Solution

Given info: The focal length of first lens is f1=10.0cm , the focal length of second lens is f2=20.0cm , the distance between lenses is d=50.0cm and the image due to the light passing through both the lenses is to be located between the lenses at a distance x=31.0cm .

Here, the value of magnification of the final image is 5.91 .

If the magnification is found to be negative M<0 , then an inverted image is formed.

Thus, the image formed is an inverted image.

Conclusion:

Therefore, the final image is inverted.

(d)

Expert Solution
Check Mark
To determine
Whether the final image is real or virtual.

Answer to Problem 36.78AP

The final image is virtual.

Explanation of Solution

Given info: The focal length of first lens is f1=10.0cm , the focal length of second lens is f2=20.0cm , the distance between lenses is d=50.0cm and the image due to the light passing through both the lenses is to be located between the lenses at a distance x=31.0cm .

Here, the value of final image distance is 19.0cm .

If the value of final image is found to be negative q2<0 , then a virtual image is formed.

Thus, the image formed is a virtual image.

Conclusion:

Therefore, the final image is virtual.

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Chapter 36 Solutions

EBK PHYSICS FOR SCIENTISTS AND ENGINEER

Ch. 36 - An object is located 50.0 cm from a converging...Ch. 36 - Prob. 36.4OQCh. 36 - A converging lens in a vertical plane receives...Ch. 36 - Prob. 36.6OQCh. 36 - Prob. 36.7OQCh. 36 - Prob. 36.8OQCh. 36 - A person spearfishing from a boat sees a...Ch. 36 - Prob. 36.10OQCh. 36 - A converging lens made of crown glass has a focal...Ch. 36 - A converging lens of focal length 8 cm forms a...Ch. 36 - Prob. 36.13OQCh. 36 - An object, represented by a gray arrow, is placed...Ch. 36 - Prob. 36.1CQCh. 36 - Prob. 36.2CQCh. 36 - Why do some emergency vehicles have the symbol...Ch. 36 - Prob. 36.4CQCh. 36 - Prob. 36.5CQCh. 36 - Explain why a fish in a spherical goldfish bowl...Ch. 36 - Prob. 36.7CQCh. 36 - Lenses used in eyeglasses, whether converging or...Ch. 36 - Suppose you want to use a converging lens to...Ch. 36 - Consider a spherical concave mirror with the...Ch. 36 - In Figures CQ36.11a and CQ36.11b, which glasses...Ch. 36 - Prob. 36.12CQCh. 36 - Prob. 36.13CQCh. 36 - Prob. 36.14CQCh. 36 - Prob. 36.15CQCh. 36 - Prob. 36.16CQCh. 36 - Prob. 36.17CQCh. 36 - Determine the minimum height of a vertical flat...Ch. 36 - In a choir practice room, two parallel walls are...Ch. 36 - (a) Does your bathroom mirror show you older or...Ch. 36 - Prob. 36.4PCh. 36 - A periscope (Fig. P35.3) is useful for viewing...Ch. 36 - Two flat mirrors have their reflecting surfaces...Ch. 36 - Two plane mirrors stand facing each other, 3.00 m...Ch. 36 - An object is placed 50.0 cm from a concave...Ch. 36 - A concave spherical mirror has a radius of...Ch. 36 - An object is placed 20.0 cm from a concave...Ch. 36 - A convex spherical mirror has a radius of...Ch. 36 - Prob. 36.12PCh. 36 - An object of height 2.00 cm is placed 30.0 cm from...Ch. 36 - A dentist uses a spherical mirror to examine a...Ch. 36 - A large hall in a museum has a niche in one wall....Ch. 36 - Why is the following situation impossible? At a...Ch. 36 - Prob. 36.17PCh. 36 - A certain Christmas tree ornament is a silver...Ch. 36 - (a) A concave spherical mirror forms an inverted...Ch. 36 - (a) A concave spherical mirror forms ail inverted...Ch. 36 - An object 10.0 cm tall is placed at the zero mark...Ch. 36 - A concave spherical mirror has a radius of...Ch. 36 - A dedicated sports car enthusiast polishes the...Ch. 36 - A convex spherical mirror has a focal length of...Ch. 36 - A spherical mirror is to be used to form an image...Ch. 36 - Review. A ball is dropped at t = 0 from rest 3.00...Ch. 36 - You unconsciously estimate the distance to an...Ch. 36 - Prob. 36.28PCh. 36 - One end of a long glass rod (n = 1.50) is formed...Ch. 36 - A cubical block of ice 50.0 cm on a side is placed...Ch. 36 - Prob. 36.31PCh. 36 - Prob. 36.32PCh. 36 - A flint glass, plate rests on the bottom of an...Ch. 36 - Figure P35.20 (page 958) shows a curved surface...Ch. 36 - Prob. 36.35PCh. 36 - Prob. 36.36PCh. 36 - A goldfish is swimming at 2.00 cm/s toward the...Ch. 36 - A thin lens has a focal length of 25.0 cm. Locate...Ch. 36 - An object located 32.0 cm in front of a lens forms...Ch. 36 - An object is located 20.0 cm to the left of a...Ch. 36 - The projection lens in a certain slide projector...Ch. 36 - An objects distance from a converging lens is 5.00...Ch. 36 - A contact lens is made of plastic with an index of...Ch. 36 - A converging lens has a focal length of 10.0 cm....Ch. 36 - A converging lens has a focal length of 10.0 cm....Ch. 36 - A diverging lens has a focal length of magnitude...Ch. 36 - Prob. 36.47PCh. 36 - Suppose an object has thickness dp so that it...Ch. 36 - The left face of a biconvex lens has a radius of...Ch. 36 - In Figure P35.30, a thin converging lens of focal...Ch. 36 - An antelope is at a distance of 20.0 m from a...Ch. 36 - Prob. 36.52PCh. 36 - A 1.00-cm-high object is placed 4.00 cm to the...Ch. 36 - The magnitudes of the radii of curvature are 32.5...Ch. 36 - Two rays traveling parallel to the principal axis...Ch. 36 - Prob. 36.56PCh. 36 - Figure 35.34 diagrams a cross section of a camera....Ch. 36 - Josh cannot see objects clearly beyond 25.0 cm...Ch. 36 - Prob. 36.59PCh. 36 - A person sees clearly wearing eyeglasses that have...Ch. 36 - Prob. 36.61PCh. 36 - A certain childs near point is 10.0 cm; her far...Ch. 36 - A person is to be fitted with bifocals. She can...Ch. 36 - A simple model of the human eye ignores its lens...Ch. 36 - A patient has a near point of 45.0 cm and far...Ch. 36 - A lens that has a focal length of 5.00 cm is used...Ch. 36 - The distance between the eyepiece and the...Ch. 36 - The refracting telescope at the Yerkes Observatory...Ch. 36 - A certain telescope has an objective mirror with...Ch. 36 - Astronomers often take photographs with the...Ch. 36 - Prob. 36.71APCh. 36 - A real object is located at the zero end of a...Ch. 36 - The distance between an object and its upright...Ch. 36 - Prob. 36.74APCh. 36 - Andy decides to use an old pair of eyeglasses to...Ch. 36 - Prob. 36.76APCh. 36 - The lens and mirror in Figure P36.77 are separated...Ch. 36 - Two converging lenses having focal lengths of f1 =...Ch. 36 - Figure P36.79 shows a piece of glass with index of...Ch. 36 - Prob. 36.80APCh. 36 - The object in Figure P36.81 is midway between the...Ch. 36 - In many applications, it is necessary to expand or...Ch. 36 - Prob. 36.83APCh. 36 - Prob. 36.84APCh. 36 - Two lenses made of kinds of glass having different...Ch. 36 - Why is the following situation impossible?...Ch. 36 - An object is placed 12.0 cm to the left of a...Ch. 36 - An object is placed a distance p to the left of a...Ch. 36 - An observer to the right of the mirror-lens...Ch. 36 - In a darkened room, a burning candle is placed...Ch. 36 - Prob. 36.91APCh. 36 - An object 2.00 cm high is placed 40.0 cm to the...Ch. 36 - Assume the intensity of sunlight is 1.00 kW/m2 at...Ch. 36 - A zoom lens system is a combination of lenses that...Ch. 36 - Figure P36.95 shows a thin converging lens for...Ch. 36 - A floating strawberry illusion is achieved with...Ch. 36 - Consider the lensmirror arrangement shown in...
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