Solve each equation. x = log 8 8 4 x = \log_8 \sqrt[4]{8}

Solve the following logarithmic equation where we have X equals log base 11 of the nine root of of 11. Our possible answers are 91 divided by 11, 1 divided by nine or 11, divided by nine. Now, to do this, we can make use of the basic form of a lug on 11 Y equals live base A of X, which can be rewritten in its exponential form as X equals a race. The power away I noticed here we have our first form here, Y equals log A X where we have X equals log base 11. We can then conclude our A is equals to 11. Now, it can rewrite in our other form. Since our base A is 11, we can rewrite our X equals A to the Y S 11 to the X with A as our base. We also conclude that are log this 11 of 11 on the right side can be rewritten as 11 to the power of one divided by none. Now, we have the same base exponent for both sides because we have the same base, we can just bring down our X and our one divided by nine we then conclude our answer X equals 1/9 corresponds to answer C OK. I hope to help you solve the problem. Thank you for watching. Goodbye.

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College Algebra

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1:49 minutes

Problem 23

Textbook Question

Solve each equation. $x = \log_{8} \sqrt[4]{8}$

Verified step by step guidance

Recognize the given equation: $x = \log_{8} \sqrt[4]{8}$. The goal is to solve for $x$.

Rewrite the fourth root as a fractional exponent: $\sqrt[4]{8} = 8^{\frac{1}{4}}$.

Substitute this back into the logarithm: $x = \log_{8} \left(8^{\frac{1}{4}}\right)$.

Use the logarithm power rule: $\log_{a} (b^{c}) = c \cdot \log_{a} b$. So, $x = \frac{1}{4} \cdot \log_{8} 8$.

Since $\log_{8} 8 = 1$ (because the base and the argument are the same), simplify to find $x = \frac{1}{4}$.

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Key Concepts

Here are the essential concepts you must grasp in order to answer the question correctly.

Logarithms and Their Properties

A logarithm answers the question: to what exponent must the base be raised to produce a given number? For example, log₈(8) = 1 because 8¹ = 8. Understanding how to interpret and manipulate logarithms is essential for solving equations involving them.

Radicals and Fractional Exponents

Radicals like the fourth root (∜) can be expressed as fractional exponents, such as ∜8 = 8^(1/4). Converting radicals to exponents simplifies calculations and helps in applying logarithmic rules effectively.

Change of Base and Simplification Techniques

Simplifying logarithmic expressions often involves rewriting numbers with common bases or using properties like log_b(a^c) = c·log_b(a). Recognizing these allows for easier evaluation of expressions like log₈(8^(1/4)) by bringing the exponent out front.

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