Video segment. Assistance may be required. The following video will explain focal length, lens distance, and image distance for a lens.

Rational Functions, media4math, YouTube

In the video, the variables were listed as o (object distance), i (image distance), and f (focal length), and the equation relating these three quantities was 1 o + 1 i = 1 f .

To avoid confusion with o and the number 0, we are going to use the variables:

Do = Object Distance
Di = Image Distance
f = Focal length

The equation changes to 1 Do + 1 Di = 1 f .

The Hubble Space Telescope has a focal length of 57.6 meters.

Source: Hubble Space Telescope Illustration, NASA Marshall Space Flight Center Collection

  1. Write an equation for Do, the object distance, in terms of the image distance, Di, and the focal length, 57.6 meters.
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    Our original equation was 1 Do + 1 Di = 1 f. If we substitute the given focal length of 57.6 meters in for the variable f, we have:

    1 Do + 1 Di = 1 57.6.

    We are asked to write an equation for Do in terms of Di and the value of f. So we need to solve this equation for Do. If we multiply the entire equation through by a common denominator, we'd have:

    Product 57.6 and i plus 57.6 and o is o times i

    Now we bring all the terms with Do to one side of the equation and factor.

    57.6i is o times the difference of i and 57.6

    And finally, divide both sides of the equation by(Di - 57.6)to solve for Do.

    D o is 57.6Di over D i less 57.6

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  2. A graph of the equation Do = fifty-seven point six times D sub i 57.6Di Di − 57.6 is shown below.

    3. What is the domain of this function? Is it the same or different than the relevant domain of the problem situation?

    Graph of D o is 57.6Di over D i less 57.6
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    • The original equation was Do = fifty-seven point six times D sub i 57.6Di Di − 57.6 . The domain of this equation is all real number, except Di ≠ 57 (this value would make the denominator of the function 0, and hence make the function undefined).
    • The domain of the problem situation is different from the domain of the entire function equation because the object distance or image distance cannot be negative, only positive values of Dothat yield positive Di values are relevant. Therefore, the domain of the problem situation is Do > 57.6.
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  3. What is the location of the vertical asymptote, and what meaning does it have in the context of this problem?
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    • The equation of the vertical asymptote is Do = 57.6.
    • Values of Do close to 57.6 produce image distances near infinity.
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  4. What is the equation of the horizontal asymptote, and what meaning does it have in the context of the problem situation?
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    • The equation of the horizontal asymptote is Di = 57.6.
    • As the object distance, Do , increases and gets very large, the image distance approaches a value of 57.6.
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