![\"\"](\"/userfiles/image/steps_images/step1.JPG\")
(a)
\The function is ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=31b68d6a2ad75aa1401fd7f168b2b44b.png\")
.
Rewrite the function as ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=3cb2632b77ed17e812bbdcba5ed656b5.png\")
.
Find the inverse function.
\\
![\"\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=3cb2632b77ed17e812bbdcba5ed656b5.png\")
.
Interchange the variables ![\"image\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=b1f02a70f7489dd3b8742e9e1c94d6d0.png\")
and ![\"image\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=8da2268e35b6b6daab9c47f71c4c8bf4.png\")
.
\
![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=19afcf053b89ae6f02c89ccf3f0fb29f.png\")
Raise ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=8da2268e35b6b6daab9c47f71c4c8bf4.png\")
to the power by ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=495e9c778f27ced3e9fc09330bfed863.png\")
.
\
![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=f97d7a2b9d1fa60d70dc61e34637ac03.png\")
Substitute ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=f2244825384df5e9c3732915e8aab1a5.png\")
.
![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=4aa61f145829a13f62c4c523c503f3a0.png\")
The inverse of the function is ![\"\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=4aa61f145829a13f62c4c523c503f3a0.png\")
.
![\"\"](\"http://www.mathskey.com/userfiles/image/steps_images/step2.JPG\")
(b)
\Draw a coordinate plane.
\Graph the functions ![\"\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=31b68d6a2ad75aa1401fd7f168b2b44b.png\")
and .
![\"\"](\"/userfiles/48-349-34(1).gif\")
Observe the graph :
\The functions and are symmetric about the line ![\"\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=cf9f5011ad83d8462469344e9d99690d.png\")
.
![\"\"](\"http://www.mathskey.com/userfiles/image/steps_images/step3.JPG\")
(c)
\The functions and are symmetric about the line .
![\"\"](\"http://www.mathskey.com/userfiles/image/steps_images/step4.JPG\")
(d)
\The function is .
The domain of a function is all values of , those makes the function mathematically correct.
Domain of is all real numbers.
Range of the function is a set of all real numbers.
The inverse function is .
The range of ![\"\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=ad56b5eb1a337bdf8298088e524dfe20.png\")
is the domain of ![\"\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=b2a24c44bf3328e22e69be8517dce800.png\")
.
Therefore, domain of is a set of all real numbers.
The domain of is the range of .
Therefore, range of is a set of all real numbers.![\"\"](\"http://www.mathskey.com/userfiles/image/steps_images/solution.JPG\")
(a) The inverse function is .
(b)
\The graph of the functions are and :
.
(c)
\![\"image\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=7638897a5bb9204998d7996637c7b50a.png\")
and ![\"image\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=95580a6e5e13d71955ddcf26a364f83b.png\")
are symmetric about .
(d)
\Domain of is a set of all real numbers.
Range of is a set of all real numbers.
Domain of is a set of all real numbers.
Range of is a set of all real numbers.