Logarithmic Functions: Determine the domain

Logarithmic Functions

4 Activities

Find the inverse f−1f^{-1}f−1 of the function f(x)=2−e3x+1f\left(x\right)=2-e^{3x+1}f(x)=2−e3x+1, and determine its domain.

f−1(x)=ln⁡(3x−1)−2f^{-1}\left(x\right)=\ln\left(3x-1\right)-2f−1(x)=ln(3x−1)−2; domain of f−1f^{-1}f−1 is (13,∞)\left(\dfrac{1}{3},\infty\right)(31​,∞)

 f−1(x)=ln⁡(x−2)−13f^{-1}\left(x\right)=\dfrac{\ln\left(x-2\right)-1}{3}f−1(x)=3ln(x−2)−1​; domain of f−1f^{-1}f−1 is (2,∞)\left(2,\infty\right)(2,∞)

f−1(x)=ln⁡(2−x)−13f^{-1}\left(x\right)=\dfrac{\ln\left(2-x\right)-1}{3}f−1(x)=3ln(2−x)−1​; domain of f−1f^{-1}f−1 is (−∞,2)\left(-\infty,2\right)(−∞,2)

f−1(x)=3ln⁡(2x)−3f^{-1}\left(x\right)=3\ln\left(\dfrac{2}{x}\right)-3f−1(x)=3ln(x2​)−3; domain of f−1f^{-1}f−1 is (0,∞)\left(0,\infty\right)(0,∞)

None of the above

I don't know

Solving Log Equations

If e⋅ln⁡(1+ex)=1e\cdot\ln\left(1+e^x\right)=1e⋅ln(1+ex)=1, solve for xxx

Domain of Log Functions

Find the domain of the function f(x)=ln⁡(ln⁡(x2))f\left(x\right)=\ln\left(\ln\left(x^2\right)\right)f(x)=ln(ln(x2)).

Logarithmic Functions

Find the domain of the following function:
f(x)=x2−2x+1ln⁡(x2−5x+6)f(x)=\dfrac{x^2-2x+1}{\sqrt{\ln(x^2-5x+6)}}f(x)=ln(x2−5x+6)​x2−2x+1​

Transforming a Log

 Given f(x)=log⁡3(2x+4)f\left(x\right)=\log_3\left(2x+4\right)f(x)=log3​(2x+4) , state all the transformations and draw a rough sketch of the function. State the asymptotes, intercepts, domain and range.

Domain of Log Functions

Find the domain of the function f(x)=ln⁡(ln⁡(x2))f\left(x\right)=\ln\left(\ln\left(x^2\right)\right)f(x)=ln(ln(x2)).

Practice: Solving a logarithmic function

Solve for 𝑥 in the equation 2ln⁡(x−1)−ln⁡(4)=02\ln\left(x-1\right)-\ln\left(4\right)=02ln(x−1)−ln(4)=0

Inverse of Logarithmic Functions

 Find the inverse of  y=5ln⁡(3ln⁡x−2)y=5\ln\left(3\ln x-2\right)y=5ln(3lnx−2)

Solving Log Equations

If e⋅ln⁡(1+ex)=1e\cdot\ln\left(1+e^x\right)=1e⋅ln(1+ex)=1, solve for xxx

Solving Log Equations

If e⋅ln⁡(1+ex)=1e\cdot\ln\left(1+e^x\right)=1e⋅ln(1+ex)=1, solve for xxx

Solving Log Equations

If e⋅ln⁡(1+ex)=1e\cdot\ln\left(1+e^x\right)=1e⋅ln(1+ex)=1, solve for xxx

Solving Log Equations

If e⋅ln⁡(1+ex)=1e\cdot\ln\left(1+e^x\right)=1e⋅ln(1+ex)=1, solve for xxx

Solving Log Equations

If e⋅ln⁡(1+ex)=1e\cdot\ln\left(1+e^x\right)=1e⋅ln(1+ex)=1, solve for xxx

Solving Log Equations

If e⋅ln⁡(1+ex)=1e\cdot\ln\left(1+e^x\right)=1e⋅ln(1+ex)=1, solve for xxx

Finding the Inverse of a Function

Practice: Finding the Inverse of a Function
Find the inverse f−1f^{-1}f−1 of the function f(x)=2−e3x+1f\left(x\right)=2-e^{3x+1}f(x)=2−e3x+1, and determine its domain.

Logarithmic Functions

 Solve for xxx in the equation: eln⁡(1+e−x)=e3e^{\ln\left(1+e^{-x}\right)}=e^3eln(1+e−x)=e3

Logarithmic Functions

 Solve for xxx in the equation: eln⁡(1+e−x)=e3e^{\ln\left(1+e^{-x}\right)}=e^3eln(1+e−x)=e3

Solving exponential functions

Solve for x if 32x/3=8x−1232^{x/3} = 8^{x-12}32x/3=8x−12

Inverse and Logarithmic Functions

Find the inverse function of 𝑓(𝑥) = ln (𝑥2 − 5) on its appropriate domain.

Logarithmic Functions

Find the inverse function of f(x)=2ln⁡(x+e) f\left(x\right)=2\ln\left(x+e\right)\ f(x)=2ln(x+e) .

Logarithmic Functions

Find the inverse function of f(x)=2ln⁡(x+e) f\left(x\right)=2\ln\left(x+e\right)\ f(x)=2ln(x+e) .

Inverse of Exponent

 Find the inverse of the given function, and its domain and range:  f(x)=5e2x3−1−4f\left(x\right)=5e^{2x^3-1}-4f(x)=5e2x3−1−4

Inverse of Exponent

 Find the inverse of the given function, and its domain and range:  f(x)=5e2x3−1−4f\left(x\right)=5e^{2x^3-1}-4f(x)=5e2x3−1−4

Inverse of Exponent

 Find the inverse of the given function, and its domain and range:  f(x)=5e2x3−1−4f\left(x\right)=5e^{2x^3-1}-4f(x)=5e2x3−1−4

Inverse of Exponent

 Find the inverse of the given function, and its domain and range:  f(x)=5e2x3−1−4f\left(x\right)=5e^{2x^3-1}-4f(x)=5e2x3−1−4

Inverse of Exponent

 Find the inverse of the given function, and its domain and range:  f(x)=5e2x3−1−4f\left(x\right)=5e^{2x^3-1}-4f(x)=5e2x3−1−4

Inverse of Exponent

 Find the inverse of the given function, and its domain and range:  f(x)=5e2x3−1−4f\left(x\right)=5e^{2x^3-1}-4f(x)=5e2x3−1−4

Inverse of Exponent

 Find the inverse of the given function, and its domain and range:  f(x)=5e2x3−1−4f\left(x\right)=5e^{2x^3-1}-4f(x)=5e2x3−1−4

Inverse of Exponent

 Find the inverse of the given function, and its domain and range:  f(x)=5e2x3−1−4f\left(x\right)=5e^{2x^3-1}-4f(x)=5e2x3−1−4

Inverse of Exponent

 Find the inverse of the given function, and its domain and range:  f(x)=5e2x3−1−4f\left(x\right)=5e^{2x^3-1}-4f(x)=5e2x3−1−4

Inverse of Exponent

 Find the inverse of the given function, and its domain and range:  f(x)=5e2x3−1−4f\left(x\right)=5e^{2x^3-1}-4f(x)=5e2x3−1−4

Evaluate 2log⁡510+log⁡52−log⁡582\log_5 10+\log_5 2-\log_5 82log5​10+log5​2−log5​8

Evaluate 2log⁡510+log⁡52−log⁡582\log_5 10+\log_5 2-\log_5 82log5​10+log5​2−log5​8

Evaluate 2log⁡510+log⁡52−log⁡582\log_5 10+\log_5 2-\log_5 82log5​10+log5​2−log5​8

Domain of Log Functions

Determine the domain of the function f(x)=ln⁡(ln⁡(x2))f\left(x\right)=\ln\left(\ln\left(x^2\right)\right)f(x)=ln(ln(x2)).

Logarithmic Functions

 Solve for xxx in the equation: eln⁡(1+e−x)=e3e^{\ln\left(1+e^{-x}\right)}=e^3eln(1+e−x)=e3

Solving exponential functions

Solve for x if 32x/3=8x−1232^{x/3} = 8^{x-12}32x/3=8x−12

Finding the Inverse of a Function

Practice: Finding the Inverse of a Function
Find the inverse f−1f^{-1}f−1 of the function f(x)=2−e3x+1f\left(x\right)=2-e^{3x+1}f(x)=2−e3x+1, and determine its domain.

Inverse Trigonometric Functions

Which of the following results in a value that is positive:

Additional Practice Problems--Functions Part 2

Additional Practice Problems
Simplify the following expressions:
a. ln⁡(3e2)+e2ln⁡3\ln\left(3e^2\right)+e^{2\ln3}ln(3e2)+e2ln3

Finding the Inverse of a Function

Practice: Finding the Inverse of a Function
Find the inverse f−1f^{-1}f−1 of the function f(x)=2−e3x+1f\left(x\right)=2-e^{3x+1}f(x)=2−e3x+1, and determine its domain.

Domain of Log Functions

Find the domain of the function f(x)=ln⁡(ln⁡(x2))f\left(x\right)=\ln\left(\ln\left(x^2\right)\right)f(x)=ln(ln(x2)).

Log & Exponential Function Properties

Which of the following functions is/are always increasing?

Solving Log Equations

If e⋅ln⁡(1+ex)=1e\cdot\ln\left(1+e^x\right)=1e⋅ln(1+ex)=1, solve for xxx

Logarithmic Functions: Log Values

Practice: Log Values
If x=log⁡218x=\log_2\sqrt{\frac{1}{8}}x=log2​81​​ , y=ln⁡(10e2)+ln⁡(0.1)y=\ln\left(\frac{10}{e^2}\right)+\ln\left(0.1\right)y=ln(e210​)+ln(0.1), and z=e−2ln⁡3z=e^{-2\ln3}z=e−2ln3, which of the following statements is true?

Q:\bf{Q:}Q: Find the inverse function of 𝑓(𝑥)=2ln⁡(𝑥+e) 𝑓(𝑥) = 2 \ln (𝑥 + e)f(x)=2ln(x+e)

Q:\bf{Q:}Q: Find the inverse of f(x)=ln⁡(x−4)f\left(x\right)=\ln\left(x-4\right)f(x)=ln(x−4) and state the domain and range for both fff and f−1f^{-1}f−1 .

Practice: Combining Logs

 Q:\bf{Q:}Q: Evaluate log⁡2 116−log⁡215+log⁡230\log_2\ \dfrac{1}{16}-\log_215+\log_230log2​ 161​−log2​15+log2​30

Logarithmic Functions

Find the domain of the following function: f(x)=1−xlog⁡(1+x)f(x)=\dfrac{\sqrt{1-x}}{\log\left(1+x\right)}f(x)=log(1+x)1−x​​

Logarithmic Functions: Determine the domain

Find the inverse f−1f^{-1}f−1 of the function f(x)=2−e3x+1f\left(x\right)=2-e^{3x+1}f(x)=2−e3x+1, and determine its domain.

Logarithmic Functions

Find the domain of the function f(x)=ln⁡[ln⁡(x2)]f\left(x\right)=\ln\left[\ln\left(x^2\right)\right]f(x)=ln[ln(x2)].

Logarithmic Functions

Solve for xxx in the equation 2ln⁡(x−1)−ln⁡(4)=02\ln\left(x-1\right)-\ln\left(4\right)=02ln(x−1)−ln(4)=0

Inverse of Exponent

 Find the inverse of the given function, and its domain and range:  f(x)=5e2x3−1−4f\left(x\right)=5e^{2x^3-1}-4f(x)=5e2x3−1−4

Inverse of Logarithmic Functions

 Find the inverse of  y=5ln⁡(3ln⁡x−2)y=5\ln\left(3\ln x-2\right)y=5ln(3lnx−2)

Range of Inverse

Find the range of the inverse of y=x+2+ln⁡(5−x)y=\sqrt{x+2}+\ln(5-x)y=x+2​+ln(5−x) .

Even or Odd Logarithmic Functions

 Determine if the following function is even, odd, or neither: f(x)=log⁡31−x1+xf\left(x\right)=\log^3\dfrac{1-x}{1+x}f(x)=log31+x1−x​

 Q:\bf{Q:}Q: State the possible values of fff and ggg given  f(g(x))=x−ln⁡xf\left(g\left(x\right)\right)=\sqrt{x-\ln x}f(g(x))=x−lnx​

Logarithmic Functions

 Find the domain of  f(x)=[ln⁡(x−5)−2]34f\left(x\right)=\left[\ln\left(x-5\right)-2\right]^{^{\frac{3}{4}}}f(x)=[ln(x−5)−2]43​

Inequalities with Logs

Find all xxx that satisfy the inequality  ln⁡(2x−1)>e3\ln\left(2x-1\right)>e^3ln(2x−1)>e3

Logarithmic and Trigonometric Functions

 Solve for x in the equation ln⁡(4−4sin⁡2x)=0\ln\left(4-4\sin^2x\right)=0ln(4−4sin2x)=0

Transforming a Log

 Given f(x)=log⁡3(2x+4)f\left(x\right)=\log_3\left(2x+4\right)f(x)=log3​(2x+4) , state all the transformations and draw a rough sketch of the function. State the asymptotes, intercepts, domain and range.

Logarithmic Functions

 Solve for xxx in the equation: eln⁡(1+e−x)=e3e^{\ln\left(1+e^{-x}\right)}=e^3eln(1+e−x)=e3

Rules of Logs

 Expand the expression  log⁡[x3sin⁡(x4)cos⁡2(5x)(102x)]\log\left[\dfrac{x^3\sin\left(x^4\right)}{\cos^2\left(5x\right)\left(10^{2x}\right)}\right]log[cos2(5x)(102x)x3sin(x4)​]

Domain of Log Functions

Find the domain of the function f(x)=ln⁡(ln⁡(x2))f\left(x\right)=\ln\left(\ln\left(x^2\right)\right)f(x)=ln(ln(x2)).

Domain of Log Functions

Find the domain of the function f(x)=ln⁡(ln⁡(x2))f\left(x\right)=\ln\left(\ln\left(x^2\right)\right)f(x)=ln(ln(x2)).

Domain of Log Functions

Find the domain of the function f(x)=ln⁡(ln⁡(x2))f\left(x\right)=\ln\left(\ln\left(x^2\right)\right)f(x)=ln(ln(x2)).

Basics of Logarithms

Practice: Basics of Logarithms
Evaluate each logarithm and match it to its corresponding answer. 

Logarithmic Functions

If log⁡3=a\log{3}=alog3=a and log⁡5=b\log{5}=blog5=b, then determine the following in terms of a and b:

Solving Logarithmic Equations

Solve log⁡2(2x+1)−log⁡2(x−1)=3\log_2{(2x+1)}-\log_2{(x-1)}=3log2​(2x+1)−log2​(x−1)=3.

Solving Logarithmic Equations

Practice: Solving Logarithmic Equations
If log⁡7343=b−a\log_{7}{343}=b-alog7​343=b−a and log⁡636=2a+2b\log_{6}{36}=2a+2blog6​36=2a+2b, what is aaa and bbb?

Solving Logarithmic Equations

Practice: Solving Logarithmic Equations
If log⁡5625=a+b\log_{5}{625}=a+blog5​625=a+b and log⁡327=2a−b\log_{3}{27}=2a-blog3​27=2a−b, what is aaa and bbb?

Solving Logarithmic Equations

Practice: Solving Logarithmic Equations
Solve. 
log⁡56+log⁡52x2=log⁡548 \log_5{6} + \log_5{2x^2}=\log_5{48}log5​6+log5​2x2=log5​48

Solving Logarithmic Equations

Practice: Solving Logarithmic Equations
Solve. 
log⁡(x−3)−log⁡(x−5)=log⁡5\log(x-3)-\log(x-5)=\log5log(x−3)−log(x−5)=log5

Solving Logarithmic Equations

Practice: Solving Logarithmic Equations
Solve and check. 
log⁡82+log⁡84x2=1\log_82+\log_84x^2=1log8​2+log8​4x2=1

Solving Logarithmic Equations

Practice: Solving Logarithmic Equations
Solve and check. 
log⁡9(x+6)−log⁡9x=log⁡92\log_9(x+6)-\log_9x=\log_92log9​(x+6)−log9​x=log9​2

Logarithm Laws

Practice: Logarithm Laws
If log⁡50=9.5\log50=9.5log50=9.5, find an approximation for the following:

Logarithm Laws

Practice: Logarithm Laws
If log⁡20=3.4872\log20=3.4872log20=3.4872, find an approximation for the following:

Logarithm Laws

Practice: Logarithm Laws
If log⁡5=a\log5=alog5=a and log⁡7=b\log7=blog7=b, write each logarithm in terms of aaa and bbb.

Logarithm Laws

Practice: Logarithm Laws
If log⁡3=a\log3=alog3=a and log⁡5=b\log5=blog5=b, write each logarithm in terms of aaa and bbb.

Logarithm Laws

Practice: Logarithm Laws
Evaluate log⁡3(812734353965)\log_{3}{\Bigg(\dfrac{81\sqrt[4]{27^3}3^{\frac{5}{3}}}{9^{\frac{6}{5}}}\Bigg)}log3​(956​814273​335​​). Leave answer in exact form. 

Logarithm Laws

Practice: Logarithm Laws
Which of the following is equivalent to log⁡a(a4b3c5d32e2)\log_{a}{\Bigg(\dfrac{a^4\sqrt[3]{b}c^5}{d^{\frac{3}{2}}e^2}\Bigg)}loga​(d23​e2a43b​c5​)?

Basics of Logarithms

Practice: Basics of Logarithms
Evaluate log⁡1162=128\log_{\frac{1}{16}}{^2=\sqrt{128}}log161​​2=128​.

Basics of Logarithms

Practice: Basics of Logarithms
Evaluate log⁡19327\log_{\frac{1}{9}}{^3\sqrt{27}}log91​​327​.

Basics of Logarithms

Practice: Basics of Logarithms
Evaluate each logarithm and match it to its corresponding answer. 

Basics of Logarithms

Practice: Basics of Logarithms
Match each exponential expression to its inverse. 

Basics of Logarithms

Practice: Basics of Logarithms
Match each exponential expression to its inverse. 

Question 1

Suppose that you have conducted an experiment resulting in the data plotted below.
The following functions f(x)f(x)f(x) depend on a parameter b>0b > 0b>0.  Which function would you use to fit the data points?

Exponential, Logarithmic and Trigonometric Functions

Which of the following numbers is the largest?

Transforming a Log

 Given f(x)=log⁡3(2x+4)f\left(x\right)=\log_3\left(2x+4\right)f(x)=log3​(2x+4) , state all the transformations and draw a rough sketch of the function. State the asymptotes, intercepts, domain and range.

Log & Exponential Function Properties

Which of the following functions is/are always increasing?

Additional Functions Practice Problems

Additional Practice Problems--Functions
1. Solve the following equations for x:
a. 9x−2=(127)2x+19^{x-2}=\left(\frac{1}{27}\right)^{2x+1}9x−2=(271​)2x+1

Find the domain of the function  f(x)=8−4ln⁡(x)f\left(x\right)=\sqrt{8-4\ln\left(x\right)}f(x)=8−4ln(x)​

When we plot the  function y=10000x3y=10000x^3y=10000x3 on a log-log graph, we get 

Find the domain of the function f(x)=ln⁡([[x]]−4)f\left(x\right)=\ln\left(\left[\left[x\right]\right]-4\right)f(x)=ln([[x]]−4) where [[x]]\left[\left[x\right]\right][[x]] represents the greatest integer of x.  

Logarithmic Functions

 Find the inverse of the function  f(x)=2−e3x+1f(x) = 2-e^{3x+1}f(x)=2−e3x+1  and find its domain.

Logarithmic Functions

 Find the inverse of  f(x)=2ln⁡(x+e)f(x) = 2\ln(x+e) f(x)=2ln(x+e)

Logarithmic Functions

 Find the domain of the function f(x)=ln⁡(ln⁡(x2))f(x) = \ln(\ln(x^2)) f(x)=ln(ln(x2))

Solving exponential functions

Solve for x if 32x/3=8x−1232^{x/3} = 8^{x-12}32x/3=8x−12

Additional Functions Practice Problems

Additional Practice Problems--Functions
1. Solve the following equations for x:
a. 9x−2=(127)2x+19^{x-2}=\left(\frac{1}{27}\right)^{2x+1}9x−2=(271​)2x+1

Practice: Solving a logarithmic function

Practice Question: Solving a Logarithmic Function
Solve for 𝑥 in the equation 2ln⁡(x−1)−ln⁡(4)=02\ln\left(x-1\right)-\ln\left(4\right)=02ln(x−1)−ln(4)=0
Enter your answers as numbers only. If there is more than 1 answer for x, type them from smallest to biggest, separated by a comma with no spaces in between (for example, -5,1,2)

Logarithmic Functions

Find the inverse f−1f^{-1}f−1 of the function f(x)=2−e3x+1f\left(x\right)=2-e^{3x+1}f(x)=2−e3x+1, and determine its domain.

Logarithmic Functions

Simplify the following expression using the laws of logarithm.
12[log⁡3(x−1)+log⁡3(x−3)]\frac{1}{2}\left[\log_3\left(x-1\right)+\log_3\left(x-3\right)\right]21​[log3​(x−1)+log3​(x−3)]

Find the inverse of the function y=log⁡5(2x−1)−9y=\log_5\left(2x-1\right)-9y=log5​(2x−1)−9.

Logarithmic Functions

 Solve for xxx in the equation: eln⁡(1+e−x)=e3e^{\ln\left(1+e^{-x}\right)}=e^3eln(1+e−x)=e3

Rules of Logs

 Expand the expression  log⁡[x3sin⁡(x4)cos⁡2(5x)(102x)]\log\left[\dfrac{x^3\sin\left(x^4\right)}{\cos^2\left(5x\right)\left(10^{2x}\right)}\right]log[cos2(5x)(102x)x3sin(x4)​]

Logarithmic and Trigonometric Functions

 Solve for x in the equation ln⁡(4−4sin⁡2x)=0\ln\left(4-4\sin^2x\right)=0ln(4−4sin2x)=0

Inequalities with Logs

Find all xxx that satisfy the inequality  ln⁡(2x−1)>e3\ln\left(2x-1\right)>e^3ln(2x−1)>e3

Inverse of Logarithmic Functions

 Find the inverse of  y=5ln⁡(3ln⁡x−2)y=5\ln\left(3\ln x-2\right)y=5ln(3lnx−2)

Inverse of Exponent

 Find the inverse of the given function, and its domain and range:  f(x)=5e2x3−1−4f\left(x\right)=5e^{2x^3-1}-4f(x)=5e2x3−1−4

Even or Odd Logarithmic Functions

 Determine if the following function is even, odd, or neither: f(x)=log⁡31−x1+xf\left(x\right)=\log^3\dfrac{1-x}{1+x}f(x)=log31+x1−x​

Logarithmic Functions

 Find the domain of  f(x)=[ln⁡(x−5)−2]34f\left(x\right)=\left[\ln\left(x-5\right)-2\right]^{^{\frac{3}{4}}}f(x)=[ln(x−5)−2]43​

Logarithmic Functions

Find the domain of the function f(x)=ln⁡[ln⁡(x2)]f\left(x\right)=\ln\left[\ln\left(x^2\right)\right]f(x)=ln[ln(x2)].

Logarithmic Functions

Solve for xxx in the equation 2ln⁡(x−1)−ln⁡(4)=02\ln\left(x-1\right)-\ln\left(4\right)=02ln(x−1)−ln(4)=0

Logarithmic Functions

Find the domain of the following function: f(x)=1−xlog⁡(1+x)f(x)=\dfrac{\sqrt{1-x}}{\log\left(1+x\right)}f(x)=log(1+x)1−x​​

Q:\bf{Q:}Q: Find the inverse function of 𝑓(𝑥)=2ln⁡(𝑥+e) 𝑓(𝑥) = 2 \ln (𝑥 + e)f(x)=2ln(x+e)

Range of Inverse

Find the range of the inverse of y=x+2+ln⁡(5−x)y=\sqrt{x+2}+\ln(5-x)y=x+2​+ln(5−x) .

 Q:\bf{Q:}Q: State the possible values of fff and ggg given  f(g(x))=x−ln⁡xf\left(g\left(x\right)\right)=\sqrt{x-\ln x}f(g(x))=x−lnx​

Q:\bf{Q:}Q: Find the inverse of f(x)=ln⁡(x−4)f\left(x\right)=\ln\left(x-4\right)f(x)=ln(x−4) and state the domain and range for both fff and f−1f^{-1}f−1 .

Practice: Combining Logs

 Q:\bf{Q:}Q: Evaluate log⁡2 116−log⁡215+log⁡230\log_2\ \dfrac{1}{16}-\log_215+\log_230log2​ 161​−log2​15+log2​30

What value of xxx solves the equation
log⁡2(x)+log⁡2(x−2)=3\log_2\left(x\right)+\log_2\left(x-2\right)=3log2​(x)+log2​(x−2)=3 ?

Logarithmic Functions

Consider the functions u(t)=(t+2)2u(t)=(t+2)^2u(t)=(t+2)2 and v(t)=ln⁡(t)v(t)=\ln(\sqrt t)v(t)=ln(t​). Find (v∘u)(t)(v \circ u)(t)(v∘u)(t) and the domain.

Logarithmic Functions

Simplify the following expression using the laws of logarithm.
3−log⁡3(1x2)\displaystyle3^{-\log_3\left(\frac{1}{x^2}\right)}3−log3​(x21​)

Logarithmic Functions

Simplify the following expression using the laws of logarithm.
eln⁡(ln⁡ e7)+ln⁡(eeln⁡6)e^{\ln\left(\ln\ e^7\right)}+\ln\left(e^{e^{\ln6}}\right)eln(ln e7)+ln(eeln6)

Logarithmic Functions

Simplify log⁡78log⁡732\frac{\log_78}{\log_732}log7​32log7​8​

Logarithmic Functions

Evaluate e[2ln⁡4−ln⁡2]+ln⁡(e3e2)e^{[2\ln4-\ln2]}+\ln(e^3e^2)e[2ln4−ln2]+ln(e3e2).

Logarithmic Functions

Find the inverse of f(x)=ln⁡(x−1x+1)f\left(x\right)=\ln\left(\frac{x-1}{x+1}\right)f(x)=ln(x+1x−1​)

Logarithmic Functions

Find the domain of the following function:
f(x)=x2−2x+1ln⁡(x2−5x+6)f(x)=\dfrac{x^2-2x+1}{\sqrt{\ln(x^2-5x+6)}}f(x)=ln(x2−5x+6)​x2−2x+1​

Practice: Inverse function

Find the inverse of f(x)=ln⁡18−2−3cos⁡xf\left(x\right)=\ln\frac{1}{\sqrt{8-2^{-3\cos x}}}f(x)=ln8−2−3cosx​1​, 0≤x<π0 \leq x < \pi0≤x<π.

Logarithmic Functions

Solve for xxx in the equation ln⁡(ln⁡(x+1))=0\ln\left(\ln\left(x+1\right)\right)=0ln(ln(x+1))=0

Logarithmic Functions

Solve for xxx in the equation ln⁡(3x−1)=−e\ln\left(3x-1\right)=-eln(3x−1)=−e.

Logarithmic Functions

Find the inverse function of f(x)=2ln⁡(x+e) f\left(x\right)=2\ln\left(x+e\right)\ f(x)=2ln(x+e) .

Find the inverse function of 𝑓(𝑥) = ln (𝑥2 − 5) on its appropriate domain.

Find the inverse function of 𝑓(𝑥) = ln (𝑥2 − 5) on its appropriate domain.

Solve for xxx in the equation ln⁡(ln⁡(x+1))=0\ln\left(\ln\left(x+1\right)\right)=0ln(ln(x+1))=0

Practice: Log & Exponential Function Properties

Practice: Log & Exponential Function Properties
Which of the following functions is/are always increasing?

Practice: Finding the Inverse of a Function

Practice: Finding the Inverse of a Function
Find the inverse f−1f^{-1}f−1 of the function f(x)=2−e3x+1f\left(x\right)=2-e^{3x+1}f(x)=2−e3x+1, and determine its domain.
a. f−1(x)=ln⁡(3x−1)−2f^{-1}\left(x\right)=\ln\left(3x-1\right)-2f−1(x)=ln(3x−1)−2; domain of f−1f^{-1}f−1 is (13,∞)\left(\frac{1}{3},\infty\right)(31​,∞)

Practice: Finding an inverse function

Practice Question: Finding an Inverse Function
Find the inverse function of 𝑓(𝑥) = 2ln (𝑥 + 𝑒).

Practice: Domain of Log Functions

Practice: Domain of Log Functions
Find the domain of the function f(x)=ln⁡(ln⁡(x2))f\left(x\right)=\ln\left(\ln\left(x^2\right)\right)f(x)=ln(ln(x2)).

Practice: Solving a logarithmic function

Practice Question: Solving a Logarithmic Function
Solve for 𝑥 in the equation 2ln⁡(x−1)−ln⁡(4)=02\ln\left(x-1\right)-\ln\left(4\right)=02ln(x−1)−ln(4)=0

Inverse and Logarithmic Functions

Find the inverse function of 𝑓(𝑥) = ln (𝑥2 − 5) on its appropriate domain.

Logarithmic Functions

Find the domain of the function f(x)=ln⁡(x2−5)f\left(x\right)=\ln\left(x^2-5\right)f(x)=ln(x2−5).

Finding the Inverse of a Function

Practice: Finding the Inverse of a Function
Find the inverse f−1f^{-1}f−1 of the function f(x)=2−e3x+1f\left(x\right)=2-e^{3x+1}f(x)=2−e3x+1, and determine its domain.

Domain of Log Functions

Find the domain of the function f(x)=ln⁡(ln⁡(x2))f\left(x\right)=\ln\left(\ln\left(x^2\right)\right)f(x)=ln(ln(x2)).

Logarithmic Functions: Domain and Range

Find the formula of the function obtained by shifting the graph of y=ln⁡xy=\ln xy=lnx  2 units down, then reflecting the graph about the x-axis, and finally, shifting the graph 1 unit up. State the domain and range of the function.

Inverse Trigonometric Functions

Which of the following results in a value that is positive:

Additional Practice Problems--Functions Part 2

b. Simplify 2log⁡510+log⁡52−log⁡582\log_5 10+\log_5 2-\log_5 82log5​10+log5​2−log5​8

Logarithmic Functions: Log Values

Practice: Log Values
If x=log⁡218x=\log_2\sqrt{\frac{1}{8}}x=log2​81​​ , y=ln⁡(10e2)+ln⁡(0.1)y=\ln\left(\frac{10}{e^2}\right)+\ln\left(0.1\right)y=ln(e210​)+ln(0.1), and z=e−2ln⁡3z=e^{-2\ln3}z=e−2ln3, which of the following statements is true?

Solving Log Equations

If e⋅ln⁡(1+ex)=1e\cdot\ln\left(1+e^x\right)=1e⋅ln(1+ex)=1, solve for xxx

Logarithmic Functions: Determine the domain

Related Topics

Logarithmic Functions

More Logarithmic Functions Questions:

Solving Log Equations

Domain of Log Functions

Logarithmic Functions

Transforming a Log

Domain of Log Functions

Practice: Solving a logarithmic function

Inverse of Logarithmic Functions

Solving Log Equations

Solving Log Equations

Solving Log Equations

Solving Log Equations

Solving Log Equations

Solving Log Equations

Finding the Inverse of a Function

Logarithmic Functions

Logarithmic Functions

Solving exponential functions

Inverse and Logarithmic Functions

Logarithmic Functions

Logarithmic Functions

Inverse of Exponent

Inverse of Exponent

Inverse of Exponent

Inverse of Exponent

Inverse of Exponent

Inverse of Exponent

Inverse of Exponent

Inverse of Exponent

Inverse of Exponent

Inverse of Exponent

Domain of Log Functions

Logarithmic Functions

Solving exponential functions

Finding the Inverse of a Function

Inverse Trigonometric Functions

Additional Practice Problems--Functions Part 2

Finding the Inverse of a Function

Domain of Log Functions

Log & Exponential Function Properties

Solving Log Equations

Logarithmic Functions: Log Values

Practice: Combining Logs

Logarithmic Functions

Logarithmic Functions: Determine the domain

Logarithmic Functions

Logarithmic Functions

Inverse of Exponent

Inverse of Logarithmic Functions

Range of Inverse

Even or Odd Logarithmic Functions

Logarithmic Functions

Inequalities with Logs

Logarithmic and Trigonometric Functions

Transforming a Log

Logarithmic Functions

Rules of Logs

Domain of Log Functions

Domain of Log Functions

Domain of Log Functions

Basics of Logarithms

Logarithmic Functions

Solving Logarithmic Equations

Solving Logarithmic Equations

Solving Logarithmic Equations

Solving Logarithmic Equations

Solving Logarithmic Equations

Solving Logarithmic Equations

Solving Logarithmic Equations

Logarithm Laws

Logarithm Laws

Logarithm Laws

Logarithm Laws

Logarithm Laws

Logarithm Laws

Basics of Logarithms

Basics of Logarithms