Learn on PengiBig Ideas Math, Algebra 1Chapter 2: Solving Linear Inequalities

Lesson 3: Solving Inequalities Using Multiplication or Division

Property For any real numbers $a$, $b$, $c$ if $a < b$ and $c 0$, then $\frac{a}{c} < \frac{b}{c}$ and $ac < bc$. if $a b$ and $c 0$, then $\frac{a}{c} \frac{b}{c}$ and $ac bc$. if $a < b$ and $c < 0$, then $\frac{a}{c} \frac{b}{c}$ and $ac bc$. if $a b$ and $c < 0$, then $\frac{a}{c} < \frac{b}{c}$ and $ac < bc$. When we divide or multiply an inequality by a: • positive number , the inequality stays the same . • negative number , the inequality reverses .

Section 1

Multiplication and Division Properties of Inequality

Property

For any real numbers $a$ , $b$ , $c$
if $a < b$ and $c > 0$ , then $\frac{a}{c} < \frac{b}{c}$ and $ac < bc$ .
if $a > b$ and $c > 0$ , then $\frac{a}{c} > \frac{b}{c}$ and $ac > bc$ .
if $a < b$ and $c < 0$ , then $\frac{a}{c} > \frac{b}{c}$ and $ac > bc$ .
if $a > b$ and $c < 0$ , then $\frac{a}{c} < \frac{b}{c}$ and $ac < bc$ .
When we divide or multiply an inequality by a:
• positive number, the inequality stays the same.
• negative number, the inequality reverses.

Examples

To solve $6x > 48$ , divide both sides by 6. Since 6 is positive, the inequality stays the same: $x > 8$ .

To solve $-4y \geq 20$ , divide both sides by -4. Since -4 is negative, the inequality reverses: $y \leq -5$ .

Section 2

Solving by Multiplying or Dividing by a Positive Number

Property

Do NOT reverse the inequality symbol when:

Adding or subtracting any number (positive or negative): If $a > b$ , then $a + c > b + c$ and $a - c > b - c$
Multiplying or dividing by a positive number: If $a > b$ and $c > 0$ , then $ac > bc$ and $\frac{a}{c} > \frac{b}{c}$
Working with negative numbers that are NOT being multiplied or divided

Examples

Section 3

Checking Reasonableness of Inequality Solutions Using Estimation

Property

When solving inequalities, use estimation and compatible numbers to verify that your solution makes sense in the context of the problem. Replace variables with test values from your solution set to check if the original inequality holds true.

Examples

Lesson overview

Expand to review the lesson summary and core properties.

Expand

Section 1

Multiplication and Division Properties of Inequality

Property

Examples

To solve $6x > 48$ , divide both sides by 6. Since 6 is positive, the inequality stays the same: $x > 8$ .

To solve $-4y \geq 20$ , divide both sides by -4. Since -4 is negative, the inequality reverses: $y \leq -5$ .

Section 2

Solving by Multiplying or Dividing by a Positive Number

Property

Do NOT reverse the inequality symbol when:

Adding or subtracting any number (positive or negative): If $a > b$ , then $a + c > b + c$ and $a - c > b - c$
Multiplying or dividing by a positive number: If $a > b$ and $c > 0$ , then $ac > bc$ and $\frac{a}{c} > \frac{b}{c}$
Working with negative numbers that are NOT being multiplied or divided

Examples

Section 3

Checking Reasonableness of Inequality Solutions Using Estimation

Property

Examples

Overview

Lesson overview

Review the lesson summary and core properties without leaving the current page.

Overview

Section 1

Multiplication and Division Properties of Inequality

Property

Examples

To solve $6x > 48$ , divide both sides by 6. Since 6 is positive, the inequality stays the same: $x > 8$ .

To solve $-4y \geq 20$ , divide both sides by -4. Since -4 is negative, the inequality reverses: $y \leq -5$ .

Section 2

Solving by Multiplying or Dividing by a Positive Number

Property

Do NOT reverse the inequality symbol when:

Adding or subtracting any number (positive or negative): If $a > b$ , then $a + c > b + c$ and $a - c > b - c$
Multiplying or dividing by a positive number: If $a > b$ and $c > 0$ , then $ac > bc$ and $\frac{a}{c} > \frac{b}{c}$
Working with negative numbers that are NOT being multiplied or divided