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Home » How to Divide Power-terms (Exponents) in Algebra

How to Divide Power-terms (Exponents) in Algebra

Learn how to divide power terms in algebra with our step-by-step guide. Perfect for students looking to master exponents

Hello! Today, we’re going to learn about dividing power-terms in algebra. This might sound a little tricky at first, but don’t worry—we’ll break it down into simple steps and use some examples to help you understand.

What Are Power-Terms?

Before we dive into dividing power-terms, let’s quickly review what power-terms are.

Power-terms, also known as exponents, are a way to express repeated multiplication of the same number. They consist of a base and an exponent. The base is the number being multiplied, and the exponent tells us how many times to multiply the base by itself.

Basic Components of Power-Terms

  1. Base: The number that is being multiplied.
  2. Exponent: The small number written above and to the right of the base, indicating how many times to multiply the base.

For example, in the power-term 23:

  • The base is 2.
  • The exponent is 3.

This means you multiply 2 by itself 3 times: 2 × 2 × 2 = 8.

The Rule for Dividing Power-Terms

When we divide power-terms with the same base (the same number being multiplied), we subtract the exponents.

The rule is: \frac{a^m}{a^n}=a^{m-n}

Here, a is the base, and m and n are the exponents.

Let’s Break It Down with an Example

Example 1: \frac{8^5}{8^3}

  1. Identify the Base and Exponents:
    • The base is 8.
    • The exponents are 5 and 3.
  2. Apply the Rule:
    • Subtract the exponent in the denominator (bottom) from the exponent in the numerator (top): 5 – 3.
  3. Simplify:
    • 8^{5-3}\;=\;8^2.
  4. Calculate the Result:
    • 8^2=8\times8=64.

So, \frac{8^5}{8^3}=64.

More Examples

Example 2: \frac{10^4}{10^2}

  1. Identify the Base and Exponents:
    • The base is 10.
    • The exponents are 4 and 2.
  2. Apply the Rule:
    • Subtract the exponent in the denominator from the exponent in the numerator: 4 – 2.
  3. Simplify:
    • 10^{4-2}\;=\;10^2.
  4. Calculate the Result:
    • 10^2=10\times10=100.

So, \frac{10^4}{10^2}=100

Example 3: \frac{5^7}{5^3}

  1. Identify the Base and Exponents:
    • The base is 5.
    • The exponents are 7 and 3.
  2. Apply the Rule:
    • Subtract the exponent in the denominator from the exponent in the numerator: 7 – 3.
  3. Simplify:
    • 5^{7-3}\;=\;5^4.
  4. Calculate the Result:
    • \frac{5^7}{5^3}\5^4=5\times5\times5\times5=625.

So, \frac{5^7}{5^3}=625.

Common Mistakes to Avoid

  1. Forgetting to Subtract the Exponents:
    • Remember, when dividing power-terms with the same base, you subtract the exponents. Don’t add them or multiply them!
  2. Using Different Bases:
    • The rule only applies to power-terms with the same base. For example, \frac{4^5}{3^2}​ cannot be simplified using this rule because the bases (4 and 3) are different.
  3. Misinterpreting the Rule:
    • Make sure you are comfortable with the rule \frac{a^m}{a^n}=a^{m-n} and apply it correctly.

Practice Problems

Now it’s your turn to practice! Try simplifying these expressions on your own:

  1. \frac{3^6}{3^2}
  2. \frac{7^5}{7^4}
  3. \frac{9^8}{9^3}​​
  4. \frac{2^9}{2^7}

Check your answers below to see how you did.

Answers to Practice Problems

  1. \frac{3^6}{3^2}=81
  2. \frac{7^5}{7^4}=7
  3. \frac{9^8}{9^3}=59,049
  4. \frac{2^9}{2^7}=4

Great job! Keep practicing, and you’ll master the concept of dividing power-terms in no time. Happy learning!

 

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