Learn on PengiReveal Math, Course 3Module 1: Exponents and Scientific Notation

Lesson 1-2: Multiply and Divide Monomials

In this Grade 8 lesson from Reveal Math, Course 3 (Module 1: Exponents and Scientific Notation), students learn how to multiply and divide monomials using the Product of Powers and Quotient of Powers properties. They practice adding exponents when multiplying powers with the same base and subtracting exponents when dividing, applying these Laws of Exponents to both numerical and algebraic expressions.

Section 1

Definition of a Monomial

Property

A monomial is a number, a variable, or the product of a number and one or more variables. Monomials act as the individual terms or building blocks that make up larger algebraic expressions.

Examples

Section 2

Product and Quotient of Powers Properties

Property

When multiplying powers with the same base, add the exponents: $a^m \cdot a^n = a^{m+n}$ .
When dividing powers with the same base, subtract the exponent of the denominator from the exponent of the numerator: $\frac{a^m}{a^n} = a^{m-n}$ .

Examples

Product Property: Multiply $10^4 \cdot 10^2$ .

$10^4 \cdot 10^2 = 10^{4+2} = 10^6$ .

Quotient Property: Divide $\frac{10^7}{10^3}$ .

$\frac{10^7}{10^3} = 10^{7-3} = 10^4$ .

Using Negative Exponents: Multiply $x^{-5} \cdot x^2$ .

$x^{-5} \cdot x^2 = x^{-5+2} = x^{-3}$ , which can be written as $\frac{1}{x^3}$ .

Explanation

These exponent properties act as mathematical shortcuts because multiplication is just repeated addition, and division is repeated subtraction. When you multiply powers of the same base, you are combining groups of factors, so you add the exponents. When you divide, you are canceling out groups of factors, so you subtract the exponents.

Section 3

Multiplying Monomials

Property

To multiply two monomials, rearrange the factors to group together the numerical coefficients and the powers of each base.
Then, multiply the coefficients and use the first law of exponents for the variable factors.

Examples

To multiply $(3a^2b)(4a^3b^4)$ , we group and multiply: $(3 \cdot 4)(a^2 \cdot a^3)(b \cdot b^4) = 12a^5b^5$ .

The product of $(-6x^3y^2)(2x^5y)$ is found by multiplying coefficients and adding exponents of like bases: $(-6 \cdot 2)(x^3 \cdot x^5)(y^2 \cdot y) = -12x^8y^3$ .

Lesson overview

Expand to review the lesson summary and core properties.

Expand

Section 1

Definition of a Monomial

Property

A monomial is a number, a variable, or the product of a number and one or more variables. Monomials act as the individual terms or building blocks that make up larger algebraic expressions.

Examples

Section 2

Product and Quotient of Powers Properties

Property

Examples

Product Property: Multiply $10^4 \cdot 10^2$ .

$10^4 \cdot 10^2 = 10^{4+2} = 10^6$ .

Quotient Property: Divide $\frac{10^7}{10^3}$ .

$\frac{10^7}{10^3} = 10^{7-3} = 10^4$ .

Using Negative Exponents: Multiply $x^{-5} \cdot x^2$ .

$x^{-5} \cdot x^2 = x^{-5+2} = x^{-3}$ , which can be written as $\frac{1}{x^3}$ .

Explanation

Section 3

Multiplying Monomials

Property

Examples

To multiply $(3a^2b)(4a^3b^4)$ , we group and multiply: $(3 \cdot 4)(a^2 \cdot a^3)(b \cdot b^4) = 12a^5b^5$ .

The product of $(-6x^3y^2)(2x^5y)$ is found by multiplying coefficients and adding exponents of like bases: $(-6 \cdot 2)(x^3 \cdot x^5)(y^2 \cdot y) = -12x^8y^3$ .

Overview

Lesson overview

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

Overview

Section 1

Definition of a Monomial

Property

A monomial is a number, a variable, or the product of a number and one or more variables. Monomials act as the individual terms or building blocks that make up larger algebraic expressions.

Examples

Section 2

Product and Quotient of Powers Properties

Property

Examples

Product Property: Multiply $10^4 \cdot 10^2$ .

$10^4 \cdot 10^2 = 10^{4+2} = 10^6$ .

Quotient Property: Divide $\frac{10^7}{10^3}$ .

$\frac{10^7}{10^3} = 10^{7-3} = 10^4$ .

Using Negative Exponents: Multiply $x^{-5} \cdot x^2$ .

$x^{-5} \cdot x^2 = x^{-5+2} = x^{-3}$ , which can be written as $\frac{1}{x^3}$ .

Explanation

Section 3

Multiplying Monomials

Property

Examples

To multiply $(3a^2b)(4a^3b^4)$ , we group and multiply: $(3 \cdot 4)(a^2 \cdot a^3)(b \cdot b^4) = 12a^5b^5$ .

The product of $(-6x^3y^2)(2x^5y)$ is found by multiplying coefficients and adding exponents of like bases: $(-6 \cdot 2)(x^3 \cdot x^5)(y^2 \cdot y) = -12x^8y^3$ .