The function y = log2x is transformed into the graph of y = log(x + 2) - 3. a) Describe (in a correct order) the transformations that must be applied to the graph of y = log2x to get the graph of y = log2(x + 2) - 3 B) sketch the graph of y = loga(x + 2) - 3 C) State the domain, range, equation of the vertical asymptote, the coordinates of the x-intercept and the coordinates of the y-intercept. If the graph does not have an x or y-intercept, be sure to explicitly state that as the case
The function y = log2x is transformed into the graph of y = log(x + 2) - 3. a) Describe (in a correct order) the transformations that must be applied to the graph of y = log2x to get the graph of y = log2(x + 2) - 3 B) sketch the graph of y = loga(x + 2) - 3 C) State the domain, range, equation of the vertical asymptote, the coordinates of the x-intercept and the coordinates of the y-intercept. If the graph does not have an x or y-intercept, be sure to explicitly state that as the case
Algebra & Trigonometry with Analytic Geometry
13th Edition
ISBN:9781133382119
Author:Swokowski
Publisher:Swokowski
Chapter3: Functions And Graphs
Section3.5: Graphs Of Functions
Problem 58E
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The function y = log2x is transformed into the graph of y = log(x + 2) - 3.
a) Describe (in a correct order) the transformations that must be applied to the graph of y = log2x to get the graph of y = log2(x + 2) - 3
B) sketch the graph of y = loga(x + 2) - 3
C) State the domain, range, equation of the vertical asymptote, the coordinates of the x-intercept
and the coordinates of the y-intercept. If the graph does not have an x or y-intercept, be sure to
explicitly state that as the case.
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