Ratio, Proportion, and Geometric MeansBefore you start analyzing similar triangles, you need to pick up a few more algebraic supplies. You'll be dealing with fractions and ratios a lot in this section, so you might as well brush up on those algebra skills first. Show A ratio is a quotient a/b, where b 0. A ratio provides a comparison between the numbers a and b. For example, if a is twice as big as b, then the ratio a/b is 2/1. The ratio a/b is read a to b and is sometimes written in the form a:b. There are times when you might want to compare three or more items. When that happens, a simple fraction just won't cut it. You'll need to use what is called an extended ratio. An extended ratio is written in the form a:b:c (if you are comparing three quantities) or a:b:c:d (if you are comparing four quantities). If you are comparing lots of quantities, just keep adding them on, separating each quantity with a colon. Eureka!An extended ratio compares more than two quantities and cannot be expressed as a single fraction. A proportion is a statement that two ratios are equal. The proportion a/b is read as a is to b as c is to d. The first and last terms (a and d) are called the extremes, and the middle terms (b and c) are called the means. There are several useful properties involving proportions, and these properties can be established using algebra.
This is just an old-fashioned cross-multiply step used in algebra to get rid of unwanted denominators when dealing with fractions. You can use the Means-Extremes Property to solve algebraic equations. Solution: If we apply the Means-Extremes Property to our equation, we have 3(x + 1) = 9(x 3) 3x + 3 = 9x 27 6x = 30 x = 5 Example 2: Use the Means-Extremes Property to solve for x: 4/x = x/9. Solution: If you apply the Means-Extremes Property to your equation, you have 36 = x2 x = ± 36 = ±6. Now combine these ideas with a problem involving geometry.
Now that you know the measure of one of your angles, you can find the measure of the second angle because the two angles are complementary:
There are other properties of proportions. You can flip the proportions and mix and match numerators and denominators. Property 2 of proportions provides a list of the changes you can make.
Again, mixing numerators and denominators is not surprising because you've been doing this in algebra for years! But there is another property of proportions that might be a bit surprising. You have to be careful when you apply this property because it involves adding or subtracting things.
To derive this property, start with a/b = c/d, add 1 to both sides and add the fractions. Now that you have proportions under your belt, you can talk about the geometric mean of two numbers. If you start with a proportion where the two means are identical (and the two extremes may be different), such as a/b = b/d, then b is the geometric mean of a and d. You found the geometric means of the numbers 4 and 9 in Example 2. Although a pair of numbers actually has two geometric means (one positive and the other negative), geometers are only interested in the positive one. After one more example you'll be ready to apply these algebraic properties to geometry.
Figure 13.1AD is the geometric mean of BD and DC, BC = 13 and BD = 9.
Excerpted from The Complete Idiot's Guide to Geometry © 2004 by Denise Szecsei, Ph.D.. All rights reserved including the right of reproduction in whole or in part in any form. Used by arrangement with Alpha Books, a member of Penguin Group (USA) Inc. To order this book direct from the publisher, visit the Penguin USA website or call 1-800-253-6476. You can also purchase this book at Amazon.com and Barnes & Noble.
How else can the ratio four out of five be written?Answer: 4 out of 5 can be written as 4/5 and is equal to 80%. Let's understand the conversion of a fraction to a percentage. Explanation: 4 out of 5 can be written as 4/5.
What are the means of the following proportion 3/15 12 60?15 and 12 are means and 3 and 60 are extremes of the above proportion.
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