Evaluate each expression without using a calculator. 8 log 8 19 8^{\log_8 19} 8 l o g 8 19

Welcome back. I am so glad you're here. We are. Given the expression six raised to the log with a base of six of 27. Were asked to evaluate this expression. Will we recall from previous lessons on the general properties of logarithms that when we are given be any number raised to a log with the same number as its base. So log base B of X. That this will be evaluated as X. Alright. That looks like what we've got here. Let's identify our B and R. X. B is going to be this big number here. That also is our base. So B equals six and X is going to be what we're taking the log of. So that's X equals 27 our expression will be evaluated as X and X equals 27. Therefore we look at our answer choices and it matches with answer choice B 27. While done, we'll catch you on the next one.

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1:13 minutes

Problem 41

Textbook Question

Evaluate each expression without using a calculator. $8^{\log_8 19}$

Verified step by step guidance

Recognize that the expression is of the form $a^{\log_a b}$, where the base of the exponent and the base of the logarithm are the same (in this case, 8).

Recall the logarithmic identity: $a^{\log_a b} = b$. This identity holds because the logarithm $\log_a b$ is the exponent to which you raise $a$ to get $b$.

Apply this identity directly to the expression \$8^{\log_8 19}$, which simplifies to just 19.

Understand that this simplification works without any calculation because the logarithm and the exponent base cancel each other out.

Therefore, the value of the expression \$8^{\log_8 19}$ is simply 19.

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Key Concepts

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

Logarithmic and Exponential Functions

Logarithms and exponents are inverse operations. The logarithm log_b(a) answers the question: to what power must the base b be raised to get a? Understanding this inverse relationship is key to simplifying expressions like b^(log_b(x)).

Properties of Logarithms and Exponents

One important property is that b^(log_b(x)) = x, where b is the base of both the exponent and the logarithm. This property allows simplification of expressions where the base of the exponent matches the base of the logarithm.

Evaluating Expressions Without a Calculator

When evaluating expressions like 8^(log_8 19) without a calculator, use algebraic properties to simplify rather than compute directly. Recognizing patterns and applying properties reduces complex expressions to simpler forms.

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