6.2 Use multiplication properties of exponents

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By the end of this section, you will be able to:

Simplify expressions with exponents
Simplify expressions using the Product Property for Exponents
Simplify expressions using the Power Property for Exponents
Simplify expressions using the Product to a Power Property
Simplify expressions by applying several properties
Multiply monomials

Before you get started, take this readiness quiz.

Simplify: $\frac{3}{4} \cdot \frac{3}{4} .$
If you missed this problem, review [link] .
Simplify: $(−2) (−2) (−2) .$
If you missed this problem, review [link] .

Simplify expressions with exponents

Remember that an exponent indicates repeated multiplication of the same quantity. For example, $2^{4}$ means to multiply 2 by itself 4 times, so $2^{4}$ means $2 \cdot 2 \cdot 2 \cdot 2$ .

Let’s review the vocabulary for expressions with exponents.

Exponential notation

This figure has two columns. In the left column is a to the m power. The m is labeled in blue as an exponent. The a is labeled in red as the base. In the right column is the text “a to the m power means multiply m factors of a.” Below this is a to the m power equals a times a times a times a, followed by an ellipsis, with “m factors” written below in blue.

This is read $a$ to the $m^{t h}$ power.

In the expression $a^{m}$ , the exponent $m$ tells us how many times we use the base $a$ as a factor.

This figure has two columns. The left column contains 4 cubed. Below this is 4 times 4 times 4, with “3 factors” written below in blue. The right column contains negative 9 to the fifth power. Below this is negative 9 times negative 9 times negative 9 times negative 9 times negative 9, with “5 factors” written below in blue.

Before we begin working with variable expressions containing exponents, let’s simplify a few expressions involving only numbers.

Simplify: ⓐ $4^{3}$ ⓑ $7^{1}$ ⓒ ${(\frac{5}{6})}^{2}$ ⓓ ${(0.63)}^{2} .$

Solution

ⓐ
$\begin{matrix} 4^{3} \\ Multiply three factors of 4. & 4 \cdot 4 \cdot 4 \\ Simplify. & 64 \end{matrix}$

ⓑ
$\begin{matrix} 7^{1} \\ Multiply one factor of 7. & 7 \end{matrix}$

ⓒ
$\begin{matrix} {(\frac{5}{6})}^{2} \\ Multiply two factors. & (\frac{5}{6}) (\frac{5}{6}) \\ Simplify. & \frac{25}{36} \end{matrix}$

ⓓ
$\begin{matrix} {(0.63)}^{2} \\ Multiply two factors. & (0.63) (0.63) \\ Simplify. & 0.3969 \end{matrix}$

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Simplify: ⓐ $6^{3}$ ⓑ $15^{1}$ ⓒ ${(\frac{3}{7})}^{2}$ ⓓ ${(0.43)}^{2} .$

ⓐ 216 ⓑ $15$ ⓒ $\frac{9}{49}$ ⓓ 0.1849

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Simplify: ⓐ $2^{5}$ ⓑ $21^{1}$ ⓒ ${(\frac{2}{5})}^{3}$ ⓓ ${(0.218)}^{2} .$

ⓐ $32$ ⓑ 21 ⓒ $\frac{8}{125}$ ⓓ $0.047524$

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Simplify: ⓐ ${(−5)}^{4}$ ⓑ $− 5^{4} .$

Solution

ⓐ
$\begin{matrix} {(−5)}^{4} \\ Multiply four factors of −5 . & (−5) (−5) (−5) (−5) \\ Simplify. & 625 \end{matrix}$
ⓑ
$\begin{matrix} − 5^{4} \\ Multiply four factors of 5. & − (5 \cdot 5 \cdot 5 \cdot 5) \\ Simplify. & −625 \end{matrix}$

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Simplify: ⓐ ${(−3)}^{4}$ ⓑ $− 3^{4} .$

ⓐ $81$ ⓑ $−81$

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Simplify: ⓐ ${(−13)}^{2}$ ⓑ $− 13^{2} .$

ⓐ $169$ ⓑ $−169$

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Notice the similarities and differences in [link] ⓐ and [link] ⓑ ! Why are the answers different? As we follow the order of operations in part ⓐ the parentheses tell us to raise the $(−5)$ to the 4 ^th power. In part ⓑ we raise just the 5 to the 4 ^th power and then take the opposite.

Simplify expressions using the product property for exponents

You have seen that when you combine like terms by adding and subtracting, you need to have the same base with the same exponent. But when you multiply and divide, the exponents may be different, and sometimes the bases may be different, too.

We’ll derive the properties of exponents by looking for patterns in several examples.

First, we will look at an example that leads to the Product Property.


What does this mean? How many factors altogether?
So, we have
Notice that 5 is the sum of the exponents, 2 and 3.

We write:

\begin{matrix} x^{2} \cdot x^{3} \\ x^{2 + 3} \\ x^{5} \end{matrix}

The base stayed the same and we added the exponents. This leads to the Product Property for Exponents .

Product property for exponents

If $a$ is a real number, and $m and n$ are counting numbers, then

a^{m} \cdot a^{n} = a^{m + n}

To multiply with like bases, add the exponents.

An example with numbers helps to verify this property.

\begin{matrix} 2^{2} \cdot 2^{3} & \overset{?}{=} & 2^{2 + 3} \\ 4 \cdot 8 & \overset{?}{=} & 2^{5} \\ 32 & = & 32 ✓ \end{matrix}

Simplify: $y^{5} \cdot y^{6} .$

Solution


Use the product property, a ^m · a ⁿ = a ^m+n .
Simplify.

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Simplify: $b^{9} \cdot b^{8} .$

$b^{17}$

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Simplify: $x^{12} \cdot x^{4} .$

$x^{16}$

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Simplify: ⓐ $2^{5} \cdot 2^{9}$ ⓑ $3 \cdot 3^{4} .$

Solution

ⓐ

Use the product property, a ^m · a ⁿ = a ^m+n .

Simplify.
ⓑ

Use the product property, a ^m · a ⁿ = a ^m+n .

Simplify.

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Simplify: ⓐ $5 \cdot 5^{5}$ ⓑ $4^{9} \cdot 4^{9} .$

ⓐ $5^{6}$ ⓑ $4^{18}$

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Simplify: ⓐ $7^{6} \cdot 7^{8}$ ⓑ $10 \cdot 10^{10} .$

ⓐ $7^{14}$ ⓑ $10^{11}$

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Simplify: ⓐ $a^{7} \cdot a$ ⓑ $x^{27} \cdot x^{13} .$

Solution

ⓐ

Rewrite, a = a ¹ .

Use the product property, a ^m · a ⁿ = a ^m+n .

Simplify.
ⓑ

Notice, the bases are the same, so add the exponents.

Simplify.

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Source: OpenStax, Elementary algebra. OpenStax CNX. Jan 18, 2017 Download for free at http://cnx.org/content/col12116/1.2

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Rewrite, a = a ¹ .
Use the product property, a ^m · a ⁿ = a ^m+n .
Simplify.


Notice, the bases are the same, so add the exponents.
Simplify.