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2.1: Representing Intervals

  • Page ID
    40899
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    Many of the problems in this chapter will have solutions that must be expressed as an interval. This means a range of \(x\) values that will satisfy the original problem. In this section, we will introduce the translation of graphical intervals into algebraic notation.

    For example, in the diagram below, we would represent the interval shown on the graph as \(x<-3\)
    clipboard_eb76b2b501253ec087968e0ded39f19b6.png
    In this diagram, we would represent the interval shown on the graph as \(1 \leq x<7.\)

    clipboard_e9efa308938eaa346bfad27ec84d88829.png
    In the next diagram, we have two separate intervals to represent-and we will need two separate statements to represent them.

    clipboard_e8fed7be98d4d66e0cb7e616ebe645aa5.png

    These intervals would be represented as \(x<-4\) OR \(x \geq 6\)
    Sometimes students try to represent the intervals above as \(6 \leq x<-4,\) however, this expression would represent a single interval where \(x\) is both less than -4 and, at the same time, greater than or equal to \(+6 .\) This is simply not possible, and would result in the empty set, which is the reason that the OR portion is needed in the correct answer.

    Example
    Represent the intervals indicated on the graph below:
    clipboard_e26ab5d42b88bf8d9260ff320bdad4bd5.png

    On this graph, there is one interval beginning at -5 and ending at +5 and another beginning at 30 and continuing to infinity. Thus, these intervals would be represented as \(-5<x \leq 5\) OR \(x \geq 30\)

    Students familiar with another form of interval notation may wish to represent this interval as \((-5,5] \cup[30, \infty) .\) Both forms of notation accomplish the same goal.

    Exercises 2.1
    In each problem below, represent the intervals indicated on the graph.
    clipboard_e452461bbf43bd893d7a8b87268d77ace.png
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    This page titled 2.1: Representing Intervals is shared under a CC BY-NC-SA 4.0 license and was authored, remixed, and/or curated by Richard W. Beveridge.

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