3. Functions

Use the graph of y = f(x) to graph each function g. g(x) = 2f(x+2) − 1

Use the graph of y = f(x) to graph each function g. g(x)=2f(x-1)

Use the graph of y = f(x) to graph each function g. g(x) = -½ ƒ ( x + 2) - 2

In Exercises 64–66, begin by graphing the square root function, f(x) = √x. Then use transformations of this graph to graph the given function. r(x) = 2√(x + 2)

Begin by graphing the standard quadratic function, f(x) = x². Then use transformations of this graph to graph the given function. h(x) = -(x − 2)²

Use the graph of y = f(x) to graph each function g.

g(x) = ½ f(x)

Use the graph of y = f(x) to graph each function g.

g(x) = −ƒ( x/2) +1

Use the graph of y = f(x) to graph each function g. g(x) = -f(x + 1) − 1

In Exercises 60–63, begin by graphing the standard quadratic function, f(x) = x^2. Then use transformations of this graph to graph the given function. g(x) = x^2 + 2

Begin by graphing the cube root function, f(x) = ∛x. Then use transformations of this graph to graph the given function. ∛(-x+2)

Use the graph of y = f(x) to graph each function g. g(x) = f(-x)

Begin by graphing the absolute value function, f(x) = |x|. Then use transformations of this graph to graph the given function. h(x) = -|x+3|

Begin by graphing the standard cubic function, f(x) = x³. Then use transformations of this graph to graph the given function. h(x) = (1/2)(x − 2)³ – 1

Use the graph of y = f(x) to graph each function g. g(x) = (1/2)f(2x)

Use the graph of y = f(x) to graph each function g. g(x) = f(x+1)