The graphs of f ( x ) = 2 x and g ( x ) = ( 1 2 ) x , and then conclude that the point ( 1 , 2 ) is on the graph of f and the point ( _ _ _ _ , 2 ) is on the graph of g . Also, the point ( − 1 , 1 2 ) is on the graph of f and the point ( _ _ _ , 1 2 ) is on the graph of g . Both graphs contain the point ________.
The graphs of f ( x ) = 2 x and g ( x ) = ( 1 2 ) x , and then conclude that the point ( 1 , 2 ) is on the graph of f and the point ( _ _ _ _ , 2 ) is on the graph of g . Also, the point ( − 1 , 1 2 ) is on the graph of f and the point ( _ _ _ , 1 2 ) is on the graph of g . Both graphs contain the point ________.
Solution Summary: The author illustrates the graphs of f(x)=2x's and glts, and concludes that the point ________ is on the
To sketch: The graphs of f(x)=2x and g(x)=(12)x, and then conclude that the point (1,2) is on the graph of f and the point (____,2) is on the graph of g. Also, the point (−1,12) is on the graph of f and the point (___,12) is on the graph of g. Both graphs contain the point ________.
b.
To determine
To sketch: The graphs of f(x)=3x and g(x)=(13)x, and then conclude that the point (1,3) is on the graph of f and the point (____,3) is on the graph of g. Also, the point (−1,13) is on the graph of f and the point (___,13) is on the graph of g. Both graphs contain the point ________.
c.
To determine
To conclude: For the function f(x)=ax and g(x)=(1a)x, where a>1, if the point (1,a) is on the graph of f, the point (____,a) is on the graph of g; if the point (___,1a) is on the graph of f, the point (___,1a) is on the graph of g; both graphs contain the point ________.
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, algebra and related others by exploring similar questions and additional content below.
How to determine the difference between an algebraic and transcendental expression; Author: Study Force;https://www.youtube.com/watch?v=xRht10w7ZOE;License: Standard YouTube License, CC-BY