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2.5 Graphing Techniques; Transformations

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1 2.5 Graphing Techniques; Transformations

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3 (2, 6) (1, 3) (2, 4) (1, 1) (0, 2) (0, 0)

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5 (2, 4) (0, 0) (1, 1) (2, 1) (1, -2) (0, -3)

6 Vertical Shifts c> The graph of f(x)+c is the same as the graph of f(x) but shifted UP by c. For example: c = 2 then f(x)+2 shifts f(x) up by 2. c< The graph of f(x)+c is the same as the graph of f(x) but shifted DOWN by c. For example: c = -3 then f(x)+(-3) = f(x)-3 shifts f(x) down by 3.

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9 Horizontal Shifts If the argument x of a function f is replaced by
x-h, h a real number, the graph of the new function y = f(x-h) is the graph of f shifted horizontally left (if h < 0) or right (if h > 0).

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12 Reflections about the x-Axis and the y-Axis
The graph of g(x)= - f(x) is the same as graph of f(x) but reflected about the x-axis. The graph of g(x)= f(-x) is the same as graph of f(x) but reflected about the y-axis.

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19 Compression and Stretches
The graph of y=af(x) is obtained from the graph of y=f(x) by vertically stretching the graph if a > 1 or vertically compressing the graph if 0 < a < 1. The graph of y=f(ax) is obtained from the graph of y=f(x) by horizontally compressing the graph if a > 1 or horizontally stretching the graph if 0 < a < 1.

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