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Grade 12

Inequalities and interval notation

Lesson

An interval on the real number line is the set of numbers between two endpoints. One or both endpoints, or neither, can belong to interval and there are notations for each possibility.

Intervals that include their endpoints are called closed intervals. To specify a closed interval including all numbers between $-1$1 and $2\pi$2π, for example, we write $\left[-1,2\pi\right]$[1,2π]. The square brackets indicate that the numbers $-1$1 and $2\pi$2π are considered to belong to the interval.

Intervals that do not include their endpoints are called open intervals. The notation for these uses rounded brackets. For example, we write $\left(0,100\right)$(0,100) to mean the set of numbers between $0$0 and $100$100 but not including either $0$0 or $100$100

Open intervals do not have a maximum or a minimum element. This is because however close to an endpoint a number in the interval is, there is always another number that is closer to the endpoint. Instead, it may be appropriate to refer to the endpoints respectively as the least upper bound and greatest lower bound of the interval.

It is also possible for an interval to be closed at one end but open at the other. For example, $[0,\sqrt{2})$[0,2) or $(-9,0]$(9,0].

An interval with no upper bound is indicated with the $\left[a,\infty\right)$[a,) sign. Such intervals are said to be open on the right. Similarly, an interval with no lower bound is open on the left and is notated with the sign $\left(-\infty,b\right]$(,b]

Thus, for example, we can indicate the whole real number line with the notation $\left(-\infty,\infty\right)$(,).

 

To make a statement that a number $x$x is in a certain interval, we can write $x\in(a,b)$x(a,b). We understand this to mean that $x$x is greater than $a$a and $x$x is less than $b$b.

That is, using the usual notations for 'greater than' and 'less than', the statement says $x>a$x>a and $xx<b. We could also write $aa<x and $xx<b and then combine these two statements into one as $aa<x<b, meaning that $x$x is strictly between $a$a and $b$b.

These forms of notation using $<$< and $>$> are called inequalities

The notation $aa<x<b is equivalent to the notation $x\in(a,b)$x(a,b).

We also use $a\le x\le b$axb to indicate that $x$x is in the closed interval from $a$a to $b$b. That is, $x\in\left[a,b\right]$x[a,b].

Examples

Example 1

Sometimes, an interval might be illustrated with a diagram like the following.

The diagram represents the interval $[-3,1)$[3,1). A solid endpoint indicates that the point is included and a hollow endpoint indicates that the point is not included.

To specify that a number $x$x belongs to this interval, we have the option of writing $x\in[-3,1)$x[3,1) or we can use the pair of  inequalities $-3\le x$3x and $x<1$x<1, which can be combined as $-3\le x<1$3x<1.

 

Example 2

The following diagram illustrates an interval that has no upper bound. It would be notated either $x\ge-1$x1 or $x\in[-1,\infty)$x[1,).

 

Example 3

Sometimes we wish to say that a number $x$x can be in one of two (or more) disjoint intervals. It may be that $x<-1$x<1 or $x>1$x>1. This can also be notated using the  sign for set union:  $x\in(-\infty,-1)\cup(1,\infty)$x(,1)(1,).

More Examples

Question 1

Consider the pictured inequality.

A horizontal number line is shown, with integers labeled from -3 to 7. On this line, a close dot is located directly above the number 2, and an open dot is above the number -1. A solid line connects the solid point above the number 2 to the hollow point above the number -1.
  1. The endpoints of this interval, from left to right, are $\editable{}$ and $\editable{}$.

  2. Which of the following is the correct notation for the pictured interval?

    $[$[$-1$1,$2$2$]$]

    A

    $($($-1$1,$2$2$]$]

    B

    $[$[$-1$1,$2$2$)$)

    C

    $($($-1$1,$2$2$)$)

    D

Question 2

Consider the pictured inequality.

A horizontal number line is displayed with a ray pointing to the right. The line is marked with integers at increments of 1. The ray starts with a solid black dot placed above the number -3 and extends to the right with a solid line.
  1. The endpoints of this interval are $\editable{}$ and $\infty$.

  2. Which of the following is the correct notation for the pictured interval?

    $[$[$-3$3,$\infty$$]$]

    A

    $[$[$-3$3,$\infty$$)$)

    B

    $($($-3$3,$\infty$$)$)

    C

    $($($-3$3,$\infty$$]$]

    D

Question 3

Consider the inequality $x\le6$x6.

  1. The endpoints of this interval are $-\infty$ and $\editable{}$.

  2. Which of the following is the correct notation for the given inequaliaty?

    $($($-\infty$,$6$6$]$]

    A

    $($($-\infty$,$6$6$)$)

    B

    $[$[$-\infty$,$6$6$]$]

    C

    $[$[$-\infty$,$6$6$)$)

    D

 

Outcomes

12F.C.4.2

Determine solutions to polynomial inequalities in one variable and to simple rational inequalities in one variable by graphing the corresponding functions, using graphing technology, and identifying intervals for which x satisfies the inequalities

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