1. Analyzing Functions

1.02 Transformations of functions

1.03 Absolute value inequalities

Lesson

Practice

1.04 Absolute value functions

1.05 Comparing functions across representations

Honors: 1.06 Piecewise functions

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Grade 912

1.03 Absolute value inequalities

Lesson

Practice

Lesson

Concept summary

The absolute value of a number is a measure of the size of a number, and is equal to its distance from zero (0), which is always a non-negative value. Absolute value is sometimes called "magnitude".

An absolute value inequality is an inequality containing the absolute value of one more variable expressions.

Inequality

A mathematical relation that compares two non-equivalent expressions

Solutions to absolute value inequalities usually involve multiple inequalities joined by one of the keywords "and" or "or". Solutions with two overlapping regions joined by "and" can be rewritten as a single compound inequality:

\left|x\right| \geq 1 has solutions of x \leq -1 \text{ or } x \geq 1 or in interval notation \left(-\infty, -1\right] \cup \left[-1,\infty\right).

\left|x\right| < 3 has solutions of x > -3 \text{ and } x < 3 which is equivalent to -3 < x < 3 or in interval notation \left(-3,3\right).

In general, for an algebraic expression p(x) and k>0, we have:

\left|p(x)\right|<k can be written as -k<p(x)<k
\left|p(x)\right|\leq k can be written as -k\leq p(x) \leq k
\left|p(x)\right|> k can be written as p(x)<-k or p(x)> k
\left|p(x)\right|\geq k can be written as p(x)\leq-k or p(x)\geq k

Solutions to absolute value inequalities can also be represented graphically using number lines:

\left|x\right| \geq 1

\left|x\right| < 3

Worked examples

Example 1

Represent the inequality \left|x\right| > 2 on a number line.

Approach

This inequality represents values of x which are "more than 2 units away from 0". To plot this, we will need to use two regions. Also note that this inequality doesn't include the endpoints, so we will use unfilled points to show this.

Solution

Reflection

We can give a quick check of the answer by thinking about whether this is an "and"-type inequality or an "or"-type inequality.

In this case, the inequality \left|x\right| > 2 has a solution of x < -2 \text{ or } x > 2. Our solution on the numberline has two distinct parts, which matches what we expect for an "or"-type inequality.

Example 2

Consider the inequality \left|4x - 5\right| \leq 3.

Solve the inequality for x. Express your solution using interval notation.

Approach

In order to solve this inequality, it will be easier to first remove the absolute value by rewriting the inequality as a compound inequality. We can then solve as normal.

Solution

\displaystyle \left\|4x - 5\right\|	\displaystyle \leq	\displaystyle 3
\displaystyle -3 \leq 4x - 5	\displaystyle \leq	\displaystyle 3	Rewrite as a compound inequality
\displaystyle 2 \leq 4x	\displaystyle \leq	\displaystyle 8	Add 5 to each part
\displaystyle \frac{1}{2} \leq x	\displaystyle \leq	\displaystyle 2	Divide throughout by 4

So the solutions are "all values of x between \dfrac{1}{2} and 2 inclusive". We can express this using interval notation as the interval \left[\frac{1}{2},\, 2\right]

Represent the solution set on a number line.

Approach

The solution set for this inequality consists of a single interval, so it will only need one region on the numberline. The endpoints are also included this time, which we represent using filled points.

Solution

Reflection

We can give a quick check of the answer by thinking about whether this is an "and"-type inequality or an "or"-type inequality.

In this case, we found the solution to the inequality \left|4x - 5\right| \leq 3 to be the compound inequality \dfrac{1}{2} \leq x \leq 2. A compound inequality is a way of writing an "and"-type inequality, which matches the fact that the numberline has one region between two endpoints.

Example 3

Write an absolute value inequality to represent the set of "all real numbers x which are at least 5 units away from 12".

Approach

We want to break down the wording of the set into its key parts. These key parts are:

at least
away from 12
5 units away

Each of these key parts tells us information about the form of the inequality.

Solution

Let's interpret these key parts:

"At least" is another way of saying "greater than or equal to", which tells us the inequality symbol that we want to use.
"Away from 12" means that we want to compare the distance between x and 12. We can represent this as \left|x - 12\right|.
"5 units away from" means that the absolute value will be compared to 5.

Putting this all together, we get "the distance between x and 12 is greater than or equal to 5", which we can represent as the absolute value inequality \left|x - 12\right| \geq 5

Outcomes

MA.912.AR.4.2

Given a mathematical or real-world context, write and solve one-variable absolute value inequalities. Represent solutions algebraically or graphically.

1.03 Absolute value inequalities

Concept summary

Worked examples

Example 1

Approach

Solution

Reflection

Example 2

Approach

Solution

Approach

Solution

Reflection

Example 3

Approach

Solution

Outcomes

MA.912.AR.4.2

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