College Physics
College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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Chapter 25, Problem 39P

(a)

To determine

The maximum angular magnification the telescope can produce.

(a)

Expert Solution
Check Mark

Answer to Problem 39P

The maximum angular magnification the telescope can produce is 1.50 .

Explanation of Solution

The focal length of the lens for the left eye is,

fL=pLqLpL+qL

    • pL is the object distance
    • qL is the image distance

Substitute 25.0cm for pL and 50.0cm for qL .

fL=(25.0cm)(50.0cm)25.0cm50.0cm=50.0cm

The focal length of the lens for the right eye is,

fR=pRqRpR+qR

Substitute 25.0cm for pR and 100.0cm for qR .

fR=(25.0cm)(100.0cm)25.0cm100.0cm=33.3cm

Using the lens for the left eye as objective,

m=fofe=fLfR

Substitute 50.0cm for fL and 33.3cm for fR .

m=50.0cm33.3cm=1.50

Conclusion:

Thus, the maximum angular magnification the telescope can produce is 1.50_ .

(b)

To determine

The maximum overall magnification the telescope can produce, if the lenses are 10.0cm apart.

(b)

Expert Solution
Check Mark

Answer to Problem 39P

The maximum overall magnification the telescope can produce, if the lenses are 10.0cm apart is 1.9 .

Explanation of Solution

Using the lens for the right eye as eyepiece, for maximum magnification, the final image must be formed at the normal near point.

The object distance is,

pe=qefeqefe

Substitute 33.3cm for fe and 25.0cm for qe .

pe=(25.0cm)(33.3cm)25.0cm33.3cm=14.3cm

The maximum magnification by the eyepiece is,

me=1+25.0cmfe

Substitute 33.3cm for fe .

me=1+25.0cm33.3cm=1.75

The image distance for the objective is,

q1=Lpe=10.0cm14.3cm=4.3cm

The object distance for the objective is,

p1=q1f1q1f1

Substitute 50.0cm for fe and 4.3cm for qe .

p1=(4.3cm)(50.0cm)4.3cm50.0cm=4.0cm

The magnification by the objective is,

M1=q1p1=4.33cm4.0cm=1.1

The overall magnification is,

m=M1me

Substitute 1.1 for M1 and 1.75 for me .

m=(1.1)(1.75)=1.9

Conclusion:

Thus, the maximum overall magnification the telescope can produce, if the lenses are 10.0cm apart is 1.9_

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Chapter 25 Solutions

College Physics

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