Physics for Scientists and Engineers: Foundations and Connections
Physics for Scientists and Engineers: Foundations and Connections
15th Edition
ISBN: 9781305289963
Author: Debora M. Katz
Publisher: Cengage Custom Learning
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Chapter 38, Problem 40PQ
To determine

The magnification of the vase and see whether the vase acts like a magnifying lens.

Expert Solution & Answer
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Answer to Problem 40PQ

The magnification produced by the vase is 0.517 and the vase will not act like a magnifying lens as the total magnification is less than 1.

Explanation of Solution

Write the expression for spherical refracting surface.

    nid0+ntdi=ntniR

Here, d0 is the distance of the object, di is the distance of the image, R is the radius, nt is the refractive index of the light in refracted medium and ni is the refractive index of the light in incident medium.

Rearrange the above equation for di.

    ntdi=ntniRnid0di=ntntniRnid0

Write the expression to calculate the distance of the image for the first surface.

    di1=ntntniRnid01                                                                                         (I)

Here, d01 is the distance of the object for the first surface and di1 is the distance of the image for the first surface.

Write the expression to calculate the magnification for the first surface.

    M1=nintdi1d01                                                                                                     (II)

Here, M1 is the magnification for the first surface.

Write the expression to calculate the object distance for the second surface.

    d02=Ddi1                                                                                                       (III)

Here, d02 is the object distance for the second surface and D is the diameter of the vase.

Write the expression to calculate the image for the second surface.

    di2=ntntniRnid02                                                                                             (IV)

Here, di2 is the distance of the image for the second surface.

Write the expression to calculate the magnification for the second surface.

    M2=nintdi2d02                                                                                                     (V)

Here, M2 is the magnification for the second surface.

Write the expression to calculate the total magnification.

    M=M1×M2                                                                                                     (VI)

Conclusion:

Substitute 1.3 for ni, 1 for nt, 3.0cm for d01 and 6.0cm for R in equation (I) to find di1.

    di1=111.36.0cm1.33.0cm=2.07cm

Substitute 1 for nt, 1.3 for ni, 3.0cm for d01 and 2.07cm for di1 in equation (II) to find M1.

    M1=1.31(2.07cm3.0cm)=0.897

Substitute 12cm for D and 2.07cm for di1 in equation (III) to find d02.

    d02=12cm+2.07cm=14.07cm

Substitute 1 for ni, 1.33 for nt, 3.0cm for d02 and 6.0cm for R in equation (IV) to find di2

    di2=1.331.3316cm114.07cm=10.55cm

Substitute 1 for ni, 1.33 for nt, 14.07cm for d02 and 10.55cm for di2 in equation (V) to find M2.

    M2=11.3(10.55cm14.07cm)=0.577

Substitute 0.897 for M1 and 0.577 for M2 in equation (VI) to find M.

    M=0.897×0.577=0.517

Therefore, the magnification produced by the vase is 0.517 and the vase will not act like a magnifying lens as the total magnification is less than 1.

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Chapter 38 Solutions

Physics for Scientists and Engineers: Foundations and Connections

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