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Exponents Simplifying expressions Order of operationsHere you will learn about multiplying exponents, including how to apply the properties of exponents when multiplying exponents with the same base and with different bases.
Students will first learn about multiplying exponents as a part of expressions and equations in 8 th grade math and will expand on that knowledge into high school.
Multiplying exponents is where you multiply terms that involve exponents, indices or powers. You can multiply exponents in various forms, including whole numbers, negative numbers, fractions, and decimals. There are two methods to multiply terms involving exponents,
Use this worksheet to check your 8th grade students’ understanding of multiplying exponents. 15 questions with answers to identify areas of strength and support!
DOWNLOAD FREEUse this worksheet to check your 8th grade students’ understanding of multiplying exponents. 15 questions with answers to identify areas of strength and support!
DOWNLOAD FREEIn order to multiply exponents when the bases are the same, you can use one of the laws of exponents.
a^{m} \times a^{n}=a^{m \, + \, n}
For example,
To simplify the following expression,
8^{3} \times 8^{4}
Write out each power in its expanded form.
\begin{aligned} {\color{red} 8^{3}} \times {\color{blue} 8^{4}} &= {\color{red}8 \times 8 \times 8} \times {\color{blue} 8 \times 8 \times 8 \times 8} \\\\ &=8^{7} \end{aligned}
Is there a quicker way to work this out?
Simplifying
8^{3} \times 8^{4} to 8^{3 \, + \, 4}
work out the simplified answer as,
8^{7}
8^{3} \times 8^{4}=8^{3 \, + \, 4}=8^{7}
The base has stayed the same and you have added the exponents together.
This is the multiplication law of exponents.
a^n \times b^n=(a \times b)^n
For example,
To evaluate the following expression:
2^{3} \times 3^{2}
Write each term of the calculation without using exponential notation. The exponent will tell you the number of times to represent the term.
2^{3} \times 3^{2}=2 \times 2 \times 2 \times 3 \times 3
\begin{aligned} 2^{3}&=2 \times 2 \times 2=8 \\\\ 3^{2}&=3 \times 3=9\end{aligned}
Work out the final answer by multiplying these numbers together.
\begin{aligned}2^{3} \times 3^{2} &=8 \times 9 \\\\ &=72\end{aligned}
How does this relate to 8 th grade math?
In order to multiply exponents with different bases:
Simplify and leave your answer in exponential form.
a^{5} \times a^{2}
5+2=7
2Multiply any coefficients.
The coefficients are both 1.
The answer is a^{7}.
Simplify and leave your answer in index form.
4 a^{3} \times 7 a^{3}
Add the exponents.
Add together the exponents 3 and 3.
3+3=6
Multiply any coefficients.
Multiply 4 and 7 together.
4 \times 7 =28
The answer is 28a^{6}.
Simplify and leave your answer in index form.
7 a^{-6} \times 9 a^{-2}
Add the exponents.
Add together the exponents -6 and -2.
-6+-2=-6-2=-8
Multiply any coefficients.
Multiply the 7 and 9 together.
7 \times 9=63
=63a^{-8}
In order to multiply exponents with different bases:
Evaluate:
4^{2} \times 2^{4}
Write out each term without the exponents.
4^{2} \times 2^{4}=4 \times 4 \times 2 \times 2 \times 2 \times 2
Work out the calculation.
\begin{aligned} 4^{2}&=4 \times 4=16 \\\\ 2^{4}&=2 \times 2 \times 2 \times 2=16 \end{aligned}
So,
\begin{aligned}4^{2} \times 2^{4} &=16 \times 16 \\\\ &=256\end{aligned}
Evaluate:
3^4 \times 4^{-2}
Write out each term without the exponents.
When multiplying with a negative exponent, like 4^{-2}, you will find the reciprocal of the term.
3^4 \times 4^{-2}=3 \times 3 \times 3 \times 3 \times \cfrac{1}{4} \times \cfrac{1}{4}
Work out the calculation.
\begin{aligned}& 3^4=3 \times 3 \times 3 \times 3=81 \\\\ & 4^{-2}=\cfrac{1}{4} \times \cfrac{1}{4}=\cfrac{1}{16}\end{aligned}
So,
\begin{aligned}& 3^{4} \times 4^{-2}=81 \times \cfrac{1}{16} \\\\ & 3^{4} \times 4^{-2}=5.0625\end{aligned}
Evaluate:
3^{2} \times 2^{3} \times 10^{2}
Write out each term without the exponents.
3^{2} \times 2^{3} \times 10^{2}=3 \times 3 \times 2 \times 2 \times 2 \times 10 \times 10
Work out the calculation.
\begin{aligned} 3^{2}&=3 \times 3=9 \\\\ 2^{3}&=2 \times 2 \times 2=8 \\\\ 10^{2}&=10 \times 10=100 \end{aligned}
So,
\begin{aligned} 3^{2} \times 2^{3} \times 10^{2} &=9 \times 8 \times 100 \\\\ &=7200\end{aligned}
1. Simplify and leave your answer in index form.
x^{5} \times x^{2}
The product of the coefficients is 1, 1 \times 1=1.
The base numbers are the same, so add the exponents.
5+2=7
The answer is x^{7}.
2. Simplify and leave your answer in index form.
4 b^{3} \times b^{-7}
The product of the coefficients is 4, 4 \times 1=4.
Because the same base number is the same, add the exponents.
3+(-7)=-4
The answer is 4b^{-4}.
3. Simplify and leave your answer in index form.
6 a^{5} \times 4 a^{-3}
The product of the coefficients is 24, 6 \times 4=24.
Because the base is the same number, add the index numbers.
5+(-3)=2
The correct answer is 24a^{2}.
4. Evaluate
3^{3} \times 2^{2}
As the base numbers are different, evaluate each term and then multiply,
3^{3} \times 2^{2}=27 \times 4=108
5. Evaluate
8^{2} \times 4^{-2}
As the base numbers are different, evaluate each term and then multiply,
8^{2} \times 4^{-2}=64 \times \cfrac{1}{16}=4
6. Evaluate
2^{4} \times 5^{2} \times 3^{3}
As the base numbers are different, evaluate each term and then multiply,
2^{4} \times 5^{2} \times 3^{3}=16 \times 25 \times 27 = 10,800
An exponent is a small number that is written above and to the right of a number, known as the base number. This indicates how many times a number is multiplied by itself (repeated multiplication). For example, 2^{3}, read as 2 to the third power, 2 is the base number and 3 is the exponent.
Yes, you can still apply the rules of exponents when dealing with exponential expressions that involve decimal or fractional exponents. For example, a^{\frac{1}{3}} \times a^{\frac{1}{3}}=a(^{\frac{1}{3}}+^{\frac{1}{3}})=a^{\frac{2}{3}}. You would find a common denominator, if needed, and then add the numerators similarly to adding fractions.
To find a power of a power, you will multiply powers, or multiply the exponents. For example, \left(x^n\right)^m=x^{n \cdot m}.
When dividing exponents with the same base, subtract the powers to calculate the quotient. For example, \cfrac{x^n}{x^m}=x^{n-m}.
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