Solving Proportions: Similar Figures

In the context of ratios and proportions, the point of similarity is that the corresponding sides of similar figures are proportional; that is, that the lengths are proportional.

For instance, look at the similar triangles ABC and abc below:

The "corresponding sides" are the pairs of sides that "match", except for the enlargement or reduction aspect of their relative sizes. So A corresponds to a, B corresponds to b, and C corresponds to c.

Since these triangles are similar, then the pairs of corresponding sides are proportional. That is, A : a = B : b = C : c. This proportionality of corresponding sides can be used to find the length of a side of a figure, given a similar figure for which the measurements are known.

• In the displayed triangles, the lengths of the sides are given by A = 48 mm, B = 81 mm, C = 68 mm, and a = 21 mm. Find the lengths of sides b and c, rounded to the nearest whole number.

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While I could have used the length I'd found for b for finding the length of c in the above exercise, I instead returned to the value of a. Why? Because it was a known-good "exact" value. hile the decimal value was in this case an exact value (that is, the value for b was not rounded), it's generally better to make a habit of returning to known-good values, whenever you can. That way, when a decimal value has been rounded, you're ignoring the rounded derived value and returning to the exact original value. This practice will help you avoid round-off error.

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• A picture measuring 3.5" (that is, 3.5 inches) high by 5" wide is to be enlarged so that the width is now 9". How tall will the picture be?

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In the first exercise above, the ratios were between corresponding sides, and the proportionality was formed from those pairs of sides. The ratios in the proportions contained fractions formed from the original large value divided by the new small value. In the second exercise above, the ratios were between the two different dimensions, and the proportionality was formed from the sets of dimensions. The ratios in the proportion contains fractions formed from the old height and old width, and from the new height and the new width.

For many exercises, you will be able to set up your ratios and proportions in more than one way. This is perfectly okay. Just make sure that you label things well, clearly define your variables, and set things up in a sensible and consistent manner. Doing so should help you dependably reach the correct solutions. If you're ever not sure of your solution, remember to plug it back into the original exercise, and verify that it works.

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There is another topic, kind of an off-shoot of similar-figures questions, which you may encounter. It is the fact that, if two figures (or three-dimensional shapes) are similar, then not only are their lengths proportional, but so also are their squares (being their areas) and their cubes (being their volumes).

• Two rectangular prisms are similar, with one pair of corresponding lengths being 15 cm and 27 cm, respectively. (a) If the volume of the smaller prism is 2000 cm³, what is the volume of the larger prism? (b) If the area of one face of the larger prism is 243 cm², what is the area of the corresponding side of the smaller prism?