Difference between revisions of "Math 22 Logarithmic Functions"

Logarithm Function

 The logarithm ${\displaystyle \log _{a}x}$ is defined as 
 ${\displaystyle \log _{a}x=b}$ if and only if ${\displaystyle a^{b}=x}$

Definition of the Natural Logarithmic Function

 The natural logarithmic function, denoted by ${\displaystyle \ln x}$, is defined as
 ${\displaystyle \ln x=b}$ if and only if ${\displaystyle e^{b}=x}$

Properties of the Natural Logarithmic Function

 Let ${\displaystyle g(x)=\ln x}$
 1. The domain of ${\displaystyle g(x)}$ is ${\displaystyle (0,\infty )}$ and the range of ${\displaystyle g(x)}$ is ${\displaystyle (-\infty ,\infty )}$
 2. The x-intercept of the graph of ${\displaystyle g(x)}$ is ${\displaystyle (1,0)}$
 3. The function ${\displaystyle g(x)}$ is continuous, increasing, and one-to-one.
 4. ${\displaystyle \lim _{x\to 0^{+}}g(x)=-\infty }$ and ${\displaystyle \lim _{x\to \infty }g(x)=\infty }$

Inverse Properties of Logarithms and Exponents

 1.${\displaystyle \ln e^{\sqrt {2}}}$
 
 2.${\displaystyle e^{\ln x}=x}$
 
 3.${\displaystyle \ln {xy}=\ln {x}+\ln {y}}$
 
 4.${\displaystyle \ln {\frac {x}{y}}=\ln x-\ln y}$
 
 5.${\displaystyle \ln {x^{n}}=n\ln x}$

Exercises Use the properties of logarithms to rewrite the expression as the logarithm of a single quantity

a) ${\displaystyle \ln(x-2)-\ln(x+2)}$

Solution:
${\displaystyle \ln(x-2)-\ln(x+2)=\ln {\frac {x-2}{x+2}}}$

b) ${\displaystyle 5\ln(x-6)+{\frac {1}{2}}\ln(5x+1)}$

Solution:
${\displaystyle 5\ln {x-6}+{\frac {1}{2}}\ln(5x+1)=\ln(x-6)^{5}+\ln[(5x+1)^{\frac {1}{2}}]}$

c) ${\displaystyle 3\ln x+2\ln y-4\ln z}$

Solution:
${\displaystyle f'(x)=6xe^{3x^{2}}}$

d) ${\displaystyle 7\ln(5x+4)-{\frac {3}{2}}\ln(x-9)}$

Solution:
${\displaystyle f'(x)=6xe^{3x^{2}}}$

Return to Topics Page

This page were made by Tri Phan