![\"\"](\"http://www.mathskey.com/userfiles/image/steps_images/step1.JPG\")
(a)
\The function is ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=fe65006704a26ab4e58076dc1d6bb4b8.png\")
.
The domain of a function is all values of ![\"\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=8da2268e35b6b6daab9c47f71c4c8bf4.png\")
, those makes the function mathematically correct.
The domain of the logarithm function is always greater than zero.
\ ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=012e7a76091c774c15140d8d3705ff91.png\")
![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=835590a76fd04bf99c09037a260a0ef5.png\")
![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=97d2140e699d38e1ff8b9f84a13ac6d9.png\")
Therefore,the domain of the function is ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=d036de1b8dac4a29e6da70aa35fb7669.png\")
.
![\"\"](\"http://www.mathskey.com/userfiles/image/steps_images/step2.JPG\")
(b)
\The function is ![\"\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=fe65006704a26ab4e58076dc1d6bb4b8.png\")
.
Consider ![\"\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=0416c8ffba78257eaec0732c0b9cf7b7.png\")
, then ![\"\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=67e0d800696d2d7c62ecfdd8f9981234.png\")
.
![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=17f1c0f244d0501aefd920701e587c19.png\")
![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=d8258a8f03ab7b07450a573639263a18.png\")
![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=2f98ebf6f645af7e7768dce1e3a38321.png\")
![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=8862c160a6a73ee29bf54757493cda58.png\")
Interchange and ![\"image\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=b1f02a70f7489dd3b8742e9e1c94d6d0.png\")
.
![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=a67912a63422c175a22079eb011aa257.png\")
Therefore , ![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=31c9db482bd931d22f0a8d76c3067cea.png\")
The inverse function is ![\"\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=31c9db482bd931d22f0a8d76c3067cea.png\")
.
![\"\"](\"http://www.mathskey.com/userfiles/image/steps_images/step3.JPG\")
The inverse function is .
The domain of a function is all values of , those makes the function mathematically correct. The domain of the logarithm function is always greater than zero.
![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=8fe5a065f8f766a9778985296e3e1050.png\")
![\"\"](\"/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=45c67435c26391e02b9c27fe956e797b.png\")
is always greatre than zero,hence the domain of the inverse function is ![\"\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=a4382225c325271dfaf441344e5581d2.png\")
.
![\"\"](\"http://www.mathskey.com/userfiles/image/steps_images/solution.JPG\")
(a) The domain of the function is ![\"\"](\"http://www.mathskey.com/test/fckeditor/editor/plugins/fckeditor_wiris/integration/showimage.php?formula=d036de1b8dac4a29e6da70aa35fb7669.png\")
.
(b) The inverse function is .
The domain of the inverse function is .