Showing posts with label function. Show all posts
Showing posts with label function. Show all posts

Friday, February 1, 2013

Graphing Basic Functions

The graphs of the following basic functions can be determined by plotting points. That is, choose some x-values and then substitute them in to find the corresponding y-values. The more points you plot the better the picture. [ Free Printable Graph Paper ]

Graph f(x) = x and state the domain and range.

Squaring Function: [ ]
Graph f(x) = x^2 and state the domain and range.

Graph f(x) = x^3 and state the domain and range.

Absolute Value Function: ]
Graph f(x) = | | and state the domain and range.

Graph f(x) = sqrt(x) and state the domain and range.

Graph f(x) = 1/x and state the domain and range.

Wednesday, January 9, 2013

Inverse Functions

We begin with the definition:

Inverse Functions – The functions f(x) and g(x) are inverses if both
for all x in the domain g and f respectively.  In other words, if you compose inverse functions the result will be x.

Verify that the given functions are inverses.
When verifying that two functions are inverses, you must obtain the original value x by composing both ways.

Determine whether or not the given functions are inverses.
If f and g are inverse functions, then g can be written using the notation

which reads, "g equals f inverse." Caution: In this context, the -1 indicates an inverse function not a negative exponent.
Take the time to review one-to-one (1-1) functions because it turns out that if a function is 1-1 then it has an inverse. Therefore, we may think of the horizontal line test as a test that determines if a function has an inverse or not.
Next we outline a procedure for actually finding inverse functions.

   Step 1: Replace f(x) with y.
   Step 2: Interchange x and y.
   Step 3: Solve the resulting equation for y.
   Step 4: Replace y with the notation for the inverse of f.
   Step 5: (Optional) Verify that the functions are inverses.

Find the inverse of the given function.
Now that you know the definition of an inverse function and how to find them, we will next turn our attention to their graphs.  For any one-to-one function f where
and we have the following property.

Symmetry of Inverse Functions – If (a, b) is a point on the graph of a function f then (b, a) is a point on the graph of its inverse. Furthermore, the two graphs will be symmetric about the line y = x.

In the following graph, see that the functions
have symmetry when graphed on the same set of axes.
Notice that (2, 3) is a point on f and (3, 2) is a point on its inverse. In other words, to graph the inverse all you need to do is switch the coordinates of each ordered pair. We used this fact to find inverses and will be very important in the next chapter when we develop the definition of the logarithm.

Given the graph of a 1-1 function, graph its inverse and the line of symmetry.
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Tuesday, November 20, 2012

Function Composition

Here is where we introduce a new operation - composition of functions.  With this definition comes new notation.
This new notation reads “f composed with g.”
The idea is to substitute one function into another function.

Given the functions f(x) = 5x – 4 and g(x) = 2x – 1.
Composition of functions is not necessarily a commutative operation, in other words, order matters.

Instructional Video: Composite Functions

Given the functions f(x) = x^2 – 9 and g(x) = x – 3.
Given the functions f(x) = x^2 + 1 and g(x) = sqrt(– 1) where ( x >= 1 ).
At this point we must understand what happens to the domain of a composite function. In the above example it might appear that f o g has a domain of all real numbers.  In fact, the domain is restricted to [1, inf) because that is the domain of g.  The domain of f o consists of all the values in the domain of g that are also in the domain of f.

Given f and g find f o g and state its domain.
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