Logarithmic functions are functions that can be written in the form They have a domain restricted to and their range is all real numbers. For functions with the base the graph of is decreasing over its entire domain.
If the base, is greater than the graph is increasing over the entire domain.
The reason logarithmic functions are undefined for can be explained by rewriting the logarithm in exponential form. For all real numbers, the term Consider a few powers ofAs the exponent decreases, the value of becomes smaller, but never equals or becomes negative. Since it follows then that
Graph the logarithmic function using a table of values. Then, describe the intercepts, end behavior and increasing/decreasing intervals of the function.
To calculate -values for logarithmic functions by hand, it can be helpful to think about the logarithm as an exponent. can be thought of as " to what power equals ?" Thus, is all the powers of and is the exponent on base We can list known powers of to determine corresponding values of and
|Powers of 2|
The - points from the table above can be plotted on a coordinate plane. Connecting the points with a smooth curve gives the graph.
Now that the graph is drawn we can describe the intercepts, end behavior and increasing/decreasing intervals of the function.
Let us show this in the graph.
A logarithmic equation is an equation which can be written in the formwhere is a constant. This type of equation can be solved graphically. This is done by first graphing the function then finding the -coordinate(s) of the point(s) on the graph that has the -coordinate(s) All found -coordinates are solutions to the equation.
Solve the equation graphically.
When equations are solved graphically, the variable terms are isolated on one side of the equation, with the constant term on the other. In the given equation, this is already the case. Therefore, we do not need to rearrange the equation before constructing the function rule. We can graph in a coordinate plane.
The solution to the equation is the -value of the point whose -coordinate is We'll mark this point on the graph.
Show that the logarithmic function and the exponential function are inverses.
The inverse of a function switches the - and -values of all the points on the function. Thus, one way to determine if two functions are inverses is two examine their coordinates. We'll begin by creating a table of values for a few points on Since we can think of as powers of and as exponents for base
Next, we can create a table for using the values of for
It can be seen that the coordinates of the points of and are switched. Assuming the behaviors of both functions follow this pattern, we can conclude that and are inverses.