Learn on PengiReveal Math, AcceleratedUnit 8: Solve Problems Using Equations and Inequalities

Lesson 8-2: Solve Equations: p(x + q) = r

In this Grade 7 lesson from Reveal Math, Accelerated, students learn to solve two-step equations in the form p(x + q) = r using two methods: dividing both sides by the coefficient p first, or applying the Distributive Property to eliminate parentheses. Real-world contexts such as diluting a bleach solution and calculating kennel dimensions help students practice writing and solving these equations. The lesson is part of Unit 8: Solve Problems Using Equations and Inequalities.

Section 1

Division Property of Equality

Property

Both sides of an equation can be divided by the same number, and the statement will still be true.
If $a=b$ , then $\frac{a}{c} = \frac{b}{c}$ (where $c \ne 0$ ).

Examples

To solve $5x = 20$ , divide both sides by 5: $\frac{5x}{5} = \frac{20}{5}$ , which simplifies to $x = 4$ .
In the equation $-12 = 3n$ , divide both sides by 3: $\frac{-12}{3} = \frac{3n}{3}$ , which gives you $-4 = n$ .

Explanation

Just like with multiplying, you have to keep things fair and balanced! If you divide one side of your equation by a number, you must do the exact same thing to the other side. This ensures your equation stays equal, helping you march steadily toward finding the value of your hidden variable.

Section 2

Distributive Property

Property

$a(b + c) = ab + ac$
$a(b - c) = ab - ac$

Examples

Show that $2(l+w)$ and $2l+2w$ are equal for $l=30, w=20$ : $2(30+20)=2(50)=100$ and $2(30)+2(20)=60+40=100$ .
Simplify using the property: $2(n+5) = 2 \cdot n + 2 \cdot 5 = 2n+10$ .

Explanation

This property is your ticket to breaking open parentheses! The term outside gets "distributed" or multiplied by every single term inside. It's like a pizza delivery—the number outside brings a slice of multiplication to everyone waiting inside the parentheses. No one gets left out!

Section 3

Two Methods for Solving p(x+q)=r

Property

An equation of the form $p(x+q)=r$ can be solved using two different, equally valid methods:

Divide First: Divide both sides by $p$ to get $x+q = \frac{r}{p}$ .
Distribute First: Apply the distributive property to get $px+pq = r$ .

Examples

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Unit 8: Solve Problems Using Equations and Inequalities

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Lesson 1
Lesson 8-1: Write and Solve Equations: px + q = r
Learn Practice
Lesson 2Current
Lesson 8-2: Solve Equations: p(x + q) = r
Learn Practice
Lesson 3
Lesson 8-3: Solve Linear Equations
Learn Practice
Lesson 4
Lesson 8-4: Describe Solutions to Linear Equations
Learn Practice
Lesson 5
Lesson 8-5: Write and Solve One-Step Addition and Subtraction Inequalities
Learn Practice
Lesson 6
Lesson 8-6: Write and Solve One-Step Multiplication and Division Inequalities
Learn Practice
Lesson 7
Lesson 8-7: Write and Solve Two-Step Inequalities
Learn Practice

Lesson overview

Expand to review the lesson summary and core properties.

Expand

Section 1

Division Property of Equality

Property

Both sides of an equation can be divided by the same number, and the statement will still be true.
If $a=b$ , then $\frac{a}{c} = \frac{b}{c}$ (where $c \ne 0$ ).

Examples

Explanation

Section 2

Distributive Property

Property

$a(b + c) = ab + ac$
$a(b - c) = ab - ac$

Examples

Show that $2(l+w)$ and $2l+2w$ are equal for $l=30, w=20$ : $2(30+20)=2(50)=100$ and $2(30)+2(20)=60+40=100$ .
Simplify using the property: $2(n+5) = 2 \cdot n + 2 \cdot 5 = 2n+10$ .

Explanation

Section 3

Two Methods for Solving p(x+q)=r

Property

An equation of the form $p(x+q)=r$ can be solved using two different, equally valid methods:

Divide First: Divide both sides by $p$ to get $x+q = \frac{r}{p}$ .
Distribute First: Apply the distributive property to get $px+pq = r$ .

Examples

Book overview

Jump across lessons in the current chapter without opening the full course modal.

Continue this chapter

Unit 8: Solve Problems Using Equations and Inequalities

Back to Reveal Math, Accelerated

Lesson 1
Lesson 8-1: Write and Solve Equations: px + q = r
Learn Practice
Lesson 2Current
Lesson 8-2: Solve Equations: p(x + q) = r
Learn Practice
Lesson 3
Lesson 8-3: Solve Linear Equations
Learn Practice
Lesson 4
Lesson 8-4: Describe Solutions to Linear Equations
Learn Practice
Lesson 5
Lesson 8-5: Write and Solve One-Step Addition and Subtraction Inequalities
Learn Practice
Lesson 6
Lesson 8-6: Write and Solve One-Step Multiplication and Division Inequalities
Learn Practice
Lesson 7
Lesson 8-7: Write and Solve Two-Step Inequalities
Learn Practice

Overview

Lesson overview

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

Overview

Section 1

Division Property of Equality

Property

Both sides of an equation can be divided by the same number, and the statement will still be true.
If $a=b$ , then $\frac{a}{c} = \frac{b}{c}$ (where $c \ne 0$ ).

Examples

Explanation

Section 2

Distributive Property

Property

$a(b + c) = ab + ac$
$a(b - c) = ab - ac$

Examples

Show that $2(l+w)$ and $2l+2w$ are equal for $l=30, w=20$ : $2(30+20)=2(50)=100$ and $2(30)+2(20)=60+40=100$ .
Simplify using the property: $2(n+5) = 2 \cdot n + 2 \cdot 5 = 2n+10$ .

Explanation

Section 3

Two Methods for Solving p(x+q)=r

Property

An equation of the form $p(x+q)=r$ can be solved using two different, equally valid methods:

Divide First: Divide both sides by $p$ to get $x+q = \frac{r}{p}$ .
Distribute First: Apply the distributive property to get $px+pq = r$ .

Examples

Book overview

Jump across lessons in the current chapter without opening the full course modal.

Continue this chapter

Unit 8: Solve Problems Using Equations and Inequalities

Back to Reveal Math, Accelerated

Lesson 1
Lesson 8-1: Write and Solve Equations: px + q = r
Learn Practice
Lesson 2Current
Lesson 8-2: Solve Equations: p(x + q) = r
Learn Practice
Lesson 3
Lesson 8-3: Solve Linear Equations
Learn Practice
Lesson 4
Lesson 8-4: Describe Solutions to Linear Equations
Learn Practice
Lesson 5
Lesson 8-5: Write and Solve One-Step Addition and Subtraction Inequalities
Learn Practice
Lesson 6
Lesson 8-6: Write and Solve One-Step Multiplication and Division Inequalities
Learn Practice
Lesson 7
Lesson 8-7: Write and Solve Two-Step Inequalities
Learn Practice

Lesson 8-2: Solve Equations: p(x + q) = r

Property

Examples

Explanation

Property

Examples

Explanation

Property

Examples

Unit 8: Solve Problems Using Equations and Inequalities

Lesson 8-1: Write and Solve Equations: px + q = r

Lesson 8-2: Solve Equations: p(x + q) = r

Lesson 8-3: Solve Linear Equations

Lesson 8-4: Describe Solutions to Linear Equations

Lesson 8-5: Write and Solve One-Step Addition and Subtraction Inequalities

Lesson 8-6: Write and Solve One-Step Multiplication and Division Inequalities

Lesson 8-7: Write and Solve Two-Step Inequalities

Lesson overview

Property

Examples

Explanation

Property

Examples

Explanation

Property

Examples

Unit 8: Solve Problems Using Equations and Inequalities

Lesson 8-1: Write and Solve Equations: px + q = r

Lesson 8-2: Solve Equations: p(x + q) = r

Lesson 8-3: Solve Linear Equations

Lesson 8-4: Describe Solutions to Linear Equations

Lesson 8-5: Write and Solve One-Step Addition and Subtraction Inequalities

Lesson 8-6: Write and Solve One-Step Multiplication and Division Inequalities

Lesson 8-7: Write and Solve Two-Step Inequalities

Lesson 8-1: Write and Solve Equations: px + q = r

Lesson 8-2: Solve Equations: p(x + q) = r

Lesson 8-3: Solve Linear Equations

Lesson 8-4: Describe Solutions to Linear Equations

Lesson 8-5: Write and Solve One-Step Addition and Subtraction Inequalities

Lesson 8-6: Write and Solve One-Step Multiplication and Division Inequalities

Lesson 8-7: Write and Solve Two-Step Inequalities