Ch. 4 - Exponential and Logarithmic Functions

Blitzer8th EditionCollege AlgebraISBN: 9780136970514Not the one you use?Change textbook

Blitzer 8th Edition

Ch. 4 - Exponential and Logarithmic Functions

Problem 20

Chapter 5, Problem 20

In Exercises 19–29, evaluate each expression without using a calculator. If evaluation is not possible, state the reason. log5 (1/5)

Verified step by step guidance

Step 1: Recall the definition of a logarithm. The logarithmic expression log_b(a) asks the question: 'To what power must the base b be raised to produce the number a?' In this case, the base is 5, and the number is 1/5.

Step 2: Rewrite the logarithmic equation log₅(1/5) = x in its equivalent exponential form. Using the property of logarithms, this becomes 5^x = 1/5.

Step 3: Recognize that 1/5 can be written as 5^-1. This means the equation 5^x = 1/5 can be rewritten as 5^x = 5^-1.

Step 4: Since the bases are the same (both are 5), the exponents must be equal. Therefore, x = -1.

Step 5: Conclude that log₅(1/5) = -1, as the base 5 raised to the power of -1 equals 1/5.

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Key Concepts

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

Logarithms

A logarithm is the inverse operation to exponentiation, representing the power to which a base must be raised to obtain a given number. For example, in the expression log_b(a), b is the base, and a is the number for which we want to find the logarithm. Understanding logarithms is essential for evaluating expressions like log5(1/5).

Change of Base Formula

The change of base formula allows us to convert logarithms from one base to another, which can simplify calculations. It states that log_b(a) = log_k(a) / log_k(b) for any positive k. This is particularly useful when the base is not easily computable, enabling us to express log5(1/5) in terms of more familiar bases like 10 or e.

Properties of Logarithms

Logarithms have several key properties that simplify their evaluation. One important property is that log_b(1) = 0 for any base b, since b^0 = 1. Additionally, log_b(1/b) = -1, as b^(-1) = 1/b. These properties can be directly applied to evaluate log5(1/5) without a calculator.

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Change of Base Property

Related Practice

Textbook Question

The graph of an exponential function is given. Select the function for each graph from the following options:

$f(x) = 3^x, $\quad$ g(x) = 3^{x-1}, $\quad$ h(x) = 3^x - 1, $\f$(x) = -3^x, $\quad$ G(x) = 3^{-x}, $\quad$ H(x) = -3^{-x}.$

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Textbook Question

Use properties of logarithms to expand each logarithmic expression as much as possible. Where possible, evaluate logarithmic expressions without using a calculator. log_b (x² y)

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Textbook Question

In Exercises 19–24, the graph of an exponential function is given. Select the function for each graph from the following options:

$f(x) = 3^x, $\quad$ g(x) = 3^{x-1}, $\quad$ h(x) = 3^x - 1, $\f$(x) = -3^x, $\quad$ G(x) = 3^{-x}, $\quad$ H(x) = -3^{-x}.$

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Textbook Question

Use properties of logarithms to expand each logarithmic expression as much as possible. Where possible, evaluate logarithmic expressions without using a calculator. $\ln \sqrt[5]{x}$

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Textbook Question

Solve each exponential equation in Exercises 1–22 by expressing each side as a power of the same base and then equating exponents. e^(x+1)=1/e

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Textbook Question

Write each equation in its equivalent logarithmic form. 7^y = 200

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