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Section 8.1 Relations and Functions pages 400 - 404

Section 8.1 Relations and Functions pages 400 - 404. The data in the table could be written as a relation . A relation is a set of ordered pairs. Here is the relation represented by the table: {(25,133),(22,216),(24,148),(22,195),(20,74),(21,150)}.

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Section 8.1 Relations and Functions pages 400 - 404

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  1. Section 8.1 Relations and Functions pages 400 - 404

  2. The data in the table could be written as a relation. • A relation is a set of ordered pairs. • Here is the relation represented by the table: {(25,133),(22,216),(24,148),(22,195),(20,74),(21,150)}

  3. {(25,133),(22,216),(24,148),(22,195),(20,74),(21,150)} • The braces, { }, indicate that these are all the ordered pairs in this relation. • The first coordinates are the domain of the relation. • The second coordinates are the range of the relation. • DOMAIN: • RANGE:

  4. Some relations are functions. • In a function, each member of the domain is paired with exactly one member of the range. • You can draw a mapping diagram to see whether a relation is a function.

  5. Identifying a Function

  6. Identifying a Function

  7. Example: {(0,5), (1,6), (2,4), (3,7)} Domain:{ } Range: { } Function?

  8. Identifying a Function Is each relation a function? Explain. A) {(0, 5), (1, 5), (2, 6), (3, 7)} B) {(0, 5), (0, 6), (1, 6), (2, 7)}

  9. Graphing Relations & Functions Graphing a relation on a coordinate plane gives us a visual way to tell if a relation is a function. If the relation is a function, then any vertical line passes through at most one point on the graph. If a line passes through two points on the graph, then the relation is not a function. This is the vertical-line test.

  10. Using the Vertical – Line Test

  11. The pencil held vertically would pass through both (2,0) and (2,3), so the relation is not a function.

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