Textbook Question
Solve each equation. 3x - 15 = log↓x 1 (x>0, x≠1)
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6. Exponential & Logarithmic Functions
Introduction to Logarithms
3:13 minutesProblem 52
Textbook Question
Graph each function. ƒ(x) = log6 (x-2)
Verified step by step guidance1
Identify the base of the logarithm and the argument inside the log function. Here, the function is given as \(f(x) = \log_{6}(x - 2)\), where the base is 6 and the argument is \((x - 2)\).
Determine the domain of the function by setting the argument greater than zero because the logarithm is only defined for positive arguments. So, solve the inequality \(x - 2 > 0\) to find the domain.
Find the vertical asymptote of the graph, which occurs where the argument of the logarithm equals zero. Set \(x - 2 = 0\) and solve for \(x\) to locate the vertical asymptote.
Plot key points by choosing values of \(x\) greater than 2, substituting them into the function \(f(x) = \log_{6}(x - 2)\), and calculating the corresponding \(y\) values (without final numeric evaluation here).
Sketch the graph using the vertical asymptote as a boundary, the plotted points for shape guidance, and remember that the graph increases slowly to the right since the base 6 is greater than 1.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Logarithmic Functions
A logarithmic function is the inverse of an exponential function and is written as f(x) = log_b(x), where b is the base. It answers the question: to what power must the base b be raised to produce x? Understanding the properties of logarithms is essential for graphing and interpreting these functions.
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Graphs of Logarithmic Functions
Domain of Logarithmic Functions
The domain of a logarithmic function f(x) = log_b(x - h) consists of all x-values for which the argument (x - h) is positive. For f(x) = log_6(x - 2), the domain is x > 2, meaning the graph only exists to the right of x = 2, which acts as a vertical asymptote.
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5:26Graphs of Logarithmic Functions
Graphing Transformations of Logarithmic Functions
Graphing f(x) = log_6(x - 2) involves shifting the basic log_6(x) graph horizontally by 2 units to the right. Recognizing how horizontal shifts affect the position of the graph and its asymptotes helps in accurately sketching the function.
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4:37Transformations of Logarithmic Graphs
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