Elementary Functions
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1 Elementary Functions Part 1, Functions Lecture 1.2a, Graphs of Functions: Introduction Dr. Ken W. Smith Sam Houston State University Spring 2013 Smith (SHSU) Elementary Functions Spring / 37
2 Representing functions visually If we describe our function using an equation y = f(x) with inputs x and outputs y, then we may view the inputs, x, as elements of a horizontal line in the plane and record outputs y on a vertical line. The graph of a function in the Cartesian plane is the set of values (x, f(x)). Combining functions with the geometry of the plane gives us a nice visual way to see and understand a function. This idea was first introduced in the 17th century by (among others) Rene Descartes and so the plane in which we draw our graph is called the Cartesian plane. Smith (SHSU) Elementary Functions Spring / 37
3 Representing functions visually If we describe our function using an equation y = f(x) with inputs x and outputs y, then we may view the inputs, x, as elements of a horizontal line in the plane and record outputs y on a vertical line. The graph of a function in the Cartesian plane is the set of values (x, f(x)). Combining functions with the geometry of the plane gives us a nice visual way to see and understand a function. This idea was first introduced in the 17th century by (among others) Rene Descartes and so the plane in which we draw our graph is called the Cartesian plane. Smith (SHSU) Elementary Functions Spring / 37
4 Representing functions visually If we describe our function using an equation y = f(x) with inputs x and outputs y, then we may view the inputs, x, as elements of a horizontal line in the plane and record outputs y on a vertical line. The graph of a function in the Cartesian plane is the set of values (x, f(x)). Combining functions with the geometry of the plane gives us a nice visual way to see and understand a function. This idea was first introduced in the 17th century by (among others) Rene Descartes and so the plane in which we draw our graph is called the Cartesian plane. Smith (SHSU) Elementary Functions Spring / 37
5 Representing functions visually If we describe our function using an equation y = f(x) with inputs x and outputs y, then we may view the inputs, x, as elements of a horizontal line in the plane and record outputs y on a vertical line. The graph of a function in the Cartesian plane is the set of values (x, f(x)). Combining functions with the geometry of the plane gives us a nice visual way to see and understand a function. This idea was first introduced in the 17th century by (among others) Rene Descartes and so the plane in which we draw our graph is called the Cartesian plane. Smith (SHSU) Elementary Functions Spring / 37
6 Representing functions visually If we describe our function using an equation y = f(x) with inputs x and outputs y, then we may view the inputs, x, as elements of a horizontal line in the plane and record outputs y on a vertical line. The graph of a function in the Cartesian plane is the set of values (x, f(x)). Combining functions with the geometry of the plane gives us a nice visual way to see and understand a function. This idea was first introduced in the 17th century by (among others) Rene Descartes and so the plane in which we draw our graph is called the Cartesian plane. Smith (SHSU) Elementary Functions Spring / 37
7 Representing functions visually If we describe our function using an equation y = f(x) with inputs x and outputs y, then we may view the inputs, x, as elements of a horizontal line in the plane and record outputs y on a vertical line. The graph of a function in the Cartesian plane is the set of values (x, f(x)). Combining functions with the geometry of the plane gives us a nice visual way to see and understand a function. This idea was first introduced in the 17th century by (among others) Rene Descartes and so the plane in which we draw our graph is called the Cartesian plane. Smith (SHSU) Elementary Functions Spring / 37
8 A table of values Many graphs of functions y = f(x) can be sketched by creating a table of values (x, y) and then making some reasonable assumptions as to how these points should be connected. For example, consider the function f(x) = x 2. We can create a table of values. x f(x) We then plot the points ( 2, 4), ( 1, 1), ( 0.5, 0.25),... on the Cartesian plane and use these points to guide us on filling in the rest of the curve. Smith (SHSU) Elementary Functions Spring / 37
9 A table of values Many graphs of functions y = f(x) can be sketched by creating a table of values (x, y) and then making some reasonable assumptions as to how these points should be connected. For example, consider the function f(x) = x 2. We can create a table of values. x f(x) We then plot the points ( 2, 4), ( 1, 1), ( 0.5, 0.25),... on the Cartesian plane and use these points to guide us on filling in the rest of the curve. Smith (SHSU) Elementary Functions Spring / 37
10 A table of values Many graphs of functions y = f(x) can be sketched by creating a table of values (x, y) and then making some reasonable assumptions as to how these points should be connected. For example, consider the function f(x) = x 2. We can create a table of values. x f(x) We then plot the points ( 2, 4), ( 1, 1), ( 0.5, 0.25),... on the Cartesian plane and use these points to guide us on filling in the rest of the curve. Smith (SHSU) Elementary Functions Spring / 37
11 A table of values Many graphs of functions y = f(x) can be sketched by creating a table of values (x, y) and then making some reasonable assumptions as to how these points should be connected. For example, consider the function f(x) = x 2. We can create a table of values. x f(x) We then plot the points ( 2, 4), ( 1, 1), ( 0.5, 0.25),... on the Cartesian plane and use these points to guide us on filling in the rest of the curve. Smith (SHSU) Elementary Functions Spring / 37
12 A table of values Many graphs of functions y = f(x) can be sketched by creating a table of values (x, y) and then making some reasonable assumptions as to how these points should be connected. For example, consider the function f(x) = x 2. We can create a table of values. x f(x) We then plot the points ( 2, 4), ( 1, 1), ( 0.5, 0.25),... on the Cartesian plane and use these points to guide us on filling in the rest of the curve. Smith (SHSU) Elementary Functions Spring / 37
13 Graphing our quadratic We plot the points ( 2, 4), ( 1, 1), ( 0.5, 0.25),... on the Cartesian plane and then fill in the rest of the curve. Smith (SHSU) Elementary Functions Spring / 37
14 Graphing our quadratic We plot the points ( 2, 4), ( 1, 1), ( 0.5, 0.25),... on the Cartesian plane and then fill in the rest of the curve. Smith (SHSU) Elementary Functions Spring / 37
15 Graphing more functions Some worked examples. For each function, create a table of values (with at least 5 points, where at least one of which does not have integer value for x) and then graph the function. 1 f(x) = x 3 x 2 f(x) = x. 3 f(x) = 3 x Smith (SHSU) Elementary Functions Spring / 37
16 Graphing a cubic 1 Graph f(x) = x 3 x... Solutions. 1 Here is a table of a few values for the function f(x) = x 3 x x f(x) = x 3 x Smith (SHSU) Elementary Functions Spring / 37
17 Graphing a cubic 1 Graph f(x) = x 3 x... Solutions. 1 Here is a table of a few values for the function f(x) = x 3 x x f(x) = x 3 x Smith (SHSU) Elementary Functions Spring / 37
18 Graphing a cubic If we connect the dots, we should get something like this: Smith (SHSU) Elementary Functions Spring / 37
19 Graphing the absolute value function 2 Graph f(x) = x... Here is a table of values for the function f(x) = x. x f(x) = x Smith (SHSU) Elementary Functions Spring / 37
20 Graphing the absolute value function 2 Graph f(x) = x... Here is a table of values for the function f(x) = x. x f(x) = x Smith (SHSU) Elementary Functions Spring / 37
21 Graphing the absolute value function If we connect the dots, we should get something like this: Smith (SHSU) Elementary Functions Spring / 37
22 Graphing the cube root function 3 Graph f(x) = 3 x... Here is a table of values for the function f(x) = 3 x x f(x) = 3 x Smith (SHSU) Elementary Functions Spring / 37
23 Graphing the cube root function 3 Graph f(x) = 3 x... Here is a table of values for the function f(x) = 3 x x f(x) = 3 x Smith (SHSU) Elementary Functions Spring / 37
24 Graphing the cube root function If we connect the dots, we should get something like this: Smith (SHSU) Elementary Functions Spring / 37
25 Finding intercepts In the next presentation we will discuss finding intercepts of functions and looking at places where functions rise or fall. (END) Smith (SHSU) Elementary Functions Spring / 37
26 Finding intercepts In the next presentation we will discuss finding intercepts of functions and looking at places where functions rise or fall. (END) Smith (SHSU) Elementary Functions Spring / 37
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