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There are many characteristics of graphs that help describe the graph of any function. These properties will be described in this chapter and are:
Some of these words may be unfamiliar to you, but each will be clearly described. Examples of these properties are shown in [link] .
Thus far, all the graphs you have drawn have needed two values, an -value and a -value. The -value is usually determined from some relation based on a given or chosen -value. These values are given special names in mathematics. The given or chosen -value is known as the independent variable, because its value can be chosen freely. The calculated -value is known as the dependent variable, because its value depends on the chosen -value.
The domain of a relation is the set of all the values for which there exists at least one value according to that relation. The range is the set of all the values, which can be obtained using at least one value.
If the relation is of height to people, then the domain is all living people, while the range would be about 0,1 to 3 metres — no living person can have a height of 0m, and while strictly it's not impossible to be taller than 3 metres, no one alive is. An important aspect of this range is that it does not contain all the numbers between 0,1 and 3, but at most six billion of them (as many as there are people).
As another example, suppose and are real valued variables, and we have the relation . Then for any value of , there is a value of , so the domain of this relation is the whole set of real numbers. However, we know that no matter what value of we choose, can never be less than or equal to 0. Hence the range of this function is all the real numbers strictly greater than zero.
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