Chapter 17. Ratio, Proportion, and Variation

OBJECTIVES

When you have completed this chapter, you should be able to

  • Set up and solve a proportion for a missing quantity.

  • Solve applied problems using proportions.

  • Find dimensions, areas, and volumes of similar geometric figures.

  • Set up and solve problems involving direct variation, inverse variation, joint variation, and combined variation.

  • Solve applied problems involving variation.

  • Set up and solve power function problems.

We earlier described a ratio as the quotient of two quantities, say a/b. Here we will set one ratio equal to another to get a proportion. We will learn how to solve proportions for a missing quantity.

We next apply the idea of proportions to the very important subject of similar figures. In technology we often have to relate an actual object to a drawing or model of that object—from a machine part to an engineering drawing of that part, from a geographical area to a map of that area, from a building to a scale model of that building. How do dimensions, areas, and volumes on one relate to those on the other? For example, if a one-fourth scale model of a space probe, Fig. 17-1, has a surface area of 13.5 m2, what is the surface area of the actual probe? Here we give you the tools to handle such problems.

When two quantities, say, x and y, are connected by some functional relation, y = f(x) some variation in the independent variable x will cause a variation in the dependent variable y. In our study of functional variation ...

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