Multiple ChoiceWritten below (green dotted curve) is a graph of the function f(x)=x−2f\left(x\right)=\sqrt{x-2}f(x)=x−2. If g(x) (blue solid curve) is a reflection of f(x) about the y-axis what is the equation for g(x)?221views7rank
Multiple ChoiceThe green dotted line in the graph below represents the function f(x)f\left(x\right)f(x). The blue solid line represents the function g(x)g\left(x\right)g(x), which is the function f(x)f\left(x\right)f(x) after it has gone through a shift transformation. Find the equation for g(x)g\left(x\right)g(x).282views3rank
Multiple ChoiceThe green dotted curve below is a graph of the function f(x)f\left(x\right)f(x). Find the domain and range of g(x)g\left(x\right)g(x) (the blue solid curve), which is a transformation of f(x)f\left(x\right)f(x).392views3rank
Textbook QuestionIn Exercises 1-16, use the graph of y = f(x) to graph each function g. g(x) = f(x)+1215views
Textbook QuestionIn Exercises 1-16, use the graph of y = f(x) to graph each function g. g(x) = f(x+1)453views
Textbook QuestionIn Exercises 1-16, use the graph of y = f(x) to graph each function g. g(x) = f(-x)193views
Textbook QuestionIn Exercises 1-16, use the graph of y = f(x) to graph each function g. g(x) = -f(x) +3200views
Textbook QuestionIn Exercises 1-16, use the graph of y = f(x) to graph each function g. g(x) = f(-x)+3301views
Textbook QuestionIn Exercises 1-16, use the graph of y = f(x) to graph each function g. g(x) = 2f(x)239views
Textbook QuestionIn Exercises 1-16, use the graph of y = f(x) to graph each function g. g(x) = f(x/2)197views
Textbook QuestionIn Exercises 1-16, use the graph of y = f(x) to graph each function g. g(x) = -f(2x) - 1224views
Textbook QuestionIn Exercises 17-32, use the graph of y = f(x) to graph each function g. g(x) = f(x) - 1201views
Textbook QuestionIn Exercises 17-32, use the graph of y = f(x) to graph each function g. g(x) = f(x-1)205views
Textbook QuestionIn Exercises 17-32, use the graph of y = f(x) to graph each function g. g(x) = f(x-1)+2273views
Textbook QuestionIn Exercises 17-32, use the graph of y = f(x) to graph each function g. g(x) = f(x + 1) − 2169views
Textbook QuestionIn Exercises 17-32, use the graph of y = f(x) to graph each function g. g(x) = f(-x)204views
Textbook QuestionIn Exercises 17-32, use the graph of y = f(x) to graph each function g. g(x) = f(-x)+1241views
Textbook QuestionIn Exercises 17-32, use the graph of y = f(x) to graph each function g. g(x) = -f(x)+1179views
Textbook QuestionIn Exercises 17-32, use the graph of y = f(x) to graph each function g. g(x) = ½ f(x)181views
Textbook QuestionIn Exercises 33-44, use the graph of y = f(x) to graph each function g. g(x) = f(x)+2232views
Textbook QuestionIn Exercises 33-44, use the graph of y = f(x) to graph each function g. g(x) = f(x+2)179views
Textbook QuestionPlot each point, and then plot the points that are symmetric to the given point with respect to the (a) x-axis, (b) y-axis, and (c) origin. (5, -3)227views
Textbook QuestionIn Exercises 33-44, use the graph of y = f(x) to graph each function g. g(x) = -(1/2)f(x+2)184views
Textbook QuestionPlot each point, and then plot the points that are symmetric to the given point with respect to the (a) x-axis, (b) y-axis, and (c) origin. (-4, -2)172views
Textbook QuestionIn Exercises 33-44, use the graph of y = f(x) to graph each function g. g(x) = -½ ƒ ( x + 2) —2190views
Textbook QuestionIn Exercises 33-44, use the graph of y = f(x) to graph each function g. g(x) = (1/2)f(2x)207views
Textbook QuestionWithout graphing, determine whether each equation has a graph that is symmetric with respect to the x-axis, the y-axis, the origin, or none of these. See Examples 3 and 4. y=x^2+5866views
Textbook QuestionIn Exercises 45-52, use the graph of y = f(x) to graph each function g. g(x) = -f(x-1) + 1227views
Textbook QuestionWithout graphing, determine whether each equation has a graph that is symmetric with respect to the x-axis, the y-axis, the origin, or none of these. See Examples 3 and 4. x^2+y^2=12338views
Textbook QuestionIn Exercises 45-52, use the graph of y = f(x) to graph each function g. g(x) = -f(x + 1) − 1203views
Textbook QuestionIn Exercises 45-52, use the graph of y = f(x) to graph each function g. g(x)=2f(x-1)261views
Textbook QuestionIn Exercises 53-66, begin by graphing the standard quadratic function, f(x) = x². Then use transformations of this graph to graph the given function. g(x) = x² - 2269views
Textbook QuestionIn Exercises 53-66, begin by graphing the standard quadratic function, f(x) = x². Then use transformations of this graph to graph the given function. g(x) = (x − 2)²211views
Textbook QuestionIn Exercises 55–59, use the graph of to graph each function g. g(x) = f(x + 2) + 3197views
Textbook QuestionIn Exercises 55–59, use the graph of to graph each function g. g(x) = -f(2x)217views
Textbook QuestionIn 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 + 2210views
Textbook QuestionIn 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. r(x) = -(x + 1)^2214views
Textbook QuestionIn Exercises 53-66, begin by graphing the standard quadratic function, f(x) = x². Then use transformations of this graph to graph the given function. g(x) = (1/2)(x − 1)²213views
Textbook QuestionIn Exercises 64–66, begin by graphing the square root function, f(x) = √x. Then use transformations of this graph to graph the given function. g(x) = √(x + 3)180views
Textbook QuestionIn Exercises 53-66, begin by graphing the standard quadratic function, f(x) = x². Then use transformations of this graph to graph the given function. h(x) = (1/2) (x − 1)² – 1349views
Textbook QuestionIn 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)574views
Textbook QuestionIn Exercises 53-66, begin by graphing the standard quadratic function, f(x) = x². Then use transformations of this graph to graph the given function. h(x) = -2(x+2)²+1173views
Textbook QuestionGraph each function. See Examples 6–8 and the Summary of Graphing Techniques box following Example 9. ƒ(x)=x^2+2157views
Textbook QuestionIn Exercises 67-80, begin by graphing the square root function, f(x) = √x. Then use transformations of this graph to graph the given function. g(x) = √x + 1193views
Textbook QuestionIn Exercises 67-80, begin by graphing the square root function, f(x) = √x. Then use transformations of this graph to graph the given function. g(x) = √(x+1)190views
Textbook QuestionIn Exercises 67-80, begin by graphing the square root function, f(x) = √x. Then use transformations of this graph to graph the given function. h(x)=-√(x + 1)219views
Textbook QuestionConsider the following nonlinear system. Work Exercises 75 –80 in order. y = | x - 1 | y = x^2 - 4 How is the graph of y = | x - 1 | obtained by transforming the graph of y = | x |?165views
Textbook QuestionGraph each function. See Examples 6–8 and the Summary of Graphing Techniques box following Example 9. h(x)=-(x+1)^3152views
Textbook QuestionIn Exercises 67-80, begin by graphing the square root function, f(x) = √x. Then use transformations of this graph to graph the given function. h(x) = √(x+1)-1196views
Textbook QuestionIn Exercises 67-80, begin by graphing the square root function, f(x) = √x. Then use transformations of this graph to graph the given function. g(x) = 2√(x+1)-1184views
Textbook QuestionGraph each function. See Examples 6–8 and the Summary of Graphing Techniques box following Example 9. ƒ(x)=-3(x-2)^2+1161views
Textbook QuestionIn Exercises 81–94, begin by graphing the absolute value function, f(x) = |x|. Then use transformations of this graph to graph the given function. g(x) = |x|+3203views
Textbook QuestionIn Exercises 81–94, begin by graphing the absolute value function, f(x) = |x|. Then use transformations of this graph to graph the given function. g(x) = |x+3|210views
Textbook QuestionGraph each function. See Examples 6–8 and the Summary of Graphing Techniques box following Example 9. ƒ(x)=2√x+1183views
Textbook QuestionIn Exercises 81–94, 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| - 2199views
Textbook QuestionGraph each function. See Examples 6–8 and the Summary of Graphing Techniques box following Example 9. ƒ(x)=3√x-2189views
Textbook QuestionIn Exercises 81–94, begin by graphing the absolute value function, f(x) = |x|. Then use transformations of this graph to graph the given function. h(x) = 2|x+3|195views
Textbook QuestionIn Exercises 81–94, begin by graphing the absolute value function, f(x) = |x|. Then use transformations of this graph to graph the given function. g(x) = -2|x+3|+2161views
Textbook QuestionEach of the following graphs is obtained from the graph of ƒ(x)=|x| or g(x)=√x by applying several of the transformations discussed in this section. Describe the transformations and give an equation for the graph. 176views
Textbook QuestionIn Exercises 95-106, begin by graphing the standard cubic function, f(x) = x³. Then use transformations of this graph to graph the given function. g(x) = x³-3186views
Textbook QuestionDescribe how the graph of each function can be obtained from the graph of ƒ(x) = |x|. g(x) = -|x|585views
Textbook QuestionIn Exercises 95-106, begin by graphing the standard cubic function, f(x) = x³. Then use transformations of this graph to graph the given function. g(x) = (x − 3)^3222views
Textbook QuestionLet ƒ(x) = 3x -4. Find an equation for each reflection of the graph of ƒ(x). across the x-axis273views
Textbook QuestionIn Exercises 95-106, begin by graphing the standard cubic function, f(x) = x³. Then use transformations of this graph to graph the given function. h(x) = -x³188views
Textbook QuestionLet ƒ(x) = 3x -4. Find an equation for each reflection of the graph of ƒ(x). across the y-axis171views
Textbook QuestionEach of the following graphs is obtained from the graph of ƒ(x)=|x| or g(x)=√x by applying several of the transformations discussed in this section. Describe the transformations and give an equation for the graph. 202views
Textbook QuestionThe graph of a function ƒ is shown in the figure. Sketch the graph of each function defined as follows. (a) y = ƒ(x) +3170views
Textbook QuestionThe graph of a function ƒ is shown in the figure. Sketch the graph of each function defined as follows. (b) y = ƒ(x-2)196views
Textbook QuestionThe graph of a function ƒ is shown in the figure. Sketch the graph of each function defined as follows. (c) y = ƒ(x+3) - 2319views
Textbook QuestionIn Exercises 95-106, begin by graphing the standard cubic function, f(x) = x³. Then use transformations of this graph to graph the given function. r(x) = (x − 2)³ +1187views
Textbook QuestionThe graph of a function ƒ is shown in the figure. Sketch the graph of each function defined as follows. (d) y = |ƒ(x)|289views
Textbook QuestionIn Exercises 107-118, begin by graphing the cube root function, f(x) = ∛x. Then use transformations of this graph to graph the given function. g(x) = ∛x+2360views
Textbook QuestionIn Exercises 107-118, begin by graphing the cube root function, f(x) = ∛x. Then use transformations of this graph to graph the given function. g(x) = ∛(x-2)626views
Textbook QuestionIn Exercises 107-118, begin by graphing the cube root function, f(x) = ∛x. Then use transformations of this graph to graph the given function. g(x) = (1/2)∛(x-2)194views
Textbook QuestionIn Exercises 107-118, begin by graphing the cube root function, f(x) = ∛x. Then use transformations of this graph to graph the given function. g(x) = (1/2)∛(x+2) - 2254views
Textbook QuestionIn Exercises 107-118, begin by graphing the cube root function, f(x) = ∛x. Then use transformations of this graph to graph the given function. ∛(-x-2)294views
Textbook QuestionIn Exercises 81–94, begin by graphing the absolute value function, f(x) = |x|. Then use transformations of this graph to graph the given function. g(x) = -|x + 4| +2322views
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