SlideShare une entreprise Scribd logo

Logarithms and logarithmic functions

Télécharger en tant que PPT, PDF
Jessica Garcia
Jessica Garcia
Formation
1  sur  50
Introduction To Logarithms
Why is logarithmic scale used to measure sound?
Our first question then must be: What is a logarithm ?
One one Function
(3,8) (2,4) (1,2) (-1,1/2) (-2,1/4) (8,3) (4,2) (2,1) (1/2,-1) (-1/4,-2) Inverse of
The inverse of is the function
(3,8) (2,4) (1,2) (-1,1/2) (-2,1/4)
Domain of logarithmic function = Range of exponential function = Range of logarithmic function = Domain of exponential function =
1. The x -intercept of the graph is 1. There is no y -intercept. 2. The y -axis is a vertical asymptote of the graph. 3. A logarithmic function is decreasing if 0 < a < 1 and increasing if a > 1. 4. The graph contains the points (1,0) and (a,1). Properties of the Graph of a Logarithmic Function
Logarithmic Abbreviations ,[object Object],[object Object],[object Object]
Of course logarithms have a precise mathematical definition just like all terms in mathematics. So let’s start with that.
Definition of Logarithm Suppose b>0 and b≠1, there is a number ‘p’ such that:
 
The first, and perhaps the most important step, in understanding logarithms is to realize that they always relate back to exponential equations.
You must be able to convert an exponential equation into logarithmic form and vice versa. So let’s get a lot of practice with this !
Example 1: Solution: We read this as: ”the log base 2 of 8 is equal to 3”.
Example 1a: Solution: Read as: “the log base 4 of 16 is equal to 2”.
Example 1b: Solution:
Okay, so now it’s time for you to try some on your own.
Solution:
Solution:
Solution:
It is also very important to be able to start with a logarithmic expression and change this into exponential form. This is simply the reverse of what we just did.
Example 1: Solution:
Example 2: Solution:
Okay, now you try these next three.
Solution:
Solution:
Solution:
We now know that a logarithm is perhaps best understood as being closely related to an exponential equation. In fact, whenever we get stuck in the problems that follow we will return to this one simple insight. We might even state a simple rule.
When working with logarithms, if ever you get “stuck”, try rewriting the problem in exponential form. Conversely, when working with exponential expressions, if ever you get “stuck”, try rewriting the problem in logarithmic form.
Let’s see if this simple rule can help us solve some of the following problems.
Solution: Let’s rewrite the problem in exponential form. We’re finished !
Solution: Rewrite the problem in exponential form.
Example 3 Try setting this up like this: Solution: Now rewrite in exponential form.
These next two problems tend to be some of the trickiest to evaluate. Actually, they are merely identities and the use of our simple rule will show this.
Example 4 Solution: Now take it out of the logarithmic form and write it in exponential form. First, we write the problem with a variable.
Example 5 Solution: First, we write the problem with a variable. Now take it out of the exponential form and write it in logarithmic form.
Ask your teacher about the last two examples. They may show you a nice shortcut.
Finally, we want to take a look at the Property of Equality for Logarithmic Functions. Basically, with logarithmic functions, if the bases match on both sides of the equal sign , then simply set the arguments equal.
Logarithmic Equations
Example 1 Solution: Since the bases are both ‘3’ we simply set the arguments equal.
Example 2 Solution: Since the bases are both ‘8’ we simply set the arguments equal. Factor continued on the next page
Example 2 continued Solution: It appears that we have 2 solutions here. If we take a closer look at the definition of a logarithm however, we will see that not only must we use positive bases, but also we see that the arguments must be positive as well. Therefore -2 is not a solution. Let’s end this lesson by taking a closer look at this.
Our final concern then is to determine why logarithms like the one below are undefined. Can anyone give us an explanation ?
One easy explanation is to simply rewrite this logarithm in exponential form. We’ll then see why a negative value is not permitted. First, we write the problem with a variable. Now take it out of the logarithmic form and write it in exponential form. What power of 2 would gives us -8 ? Hence expressions of this type are undefined.
 
 
That concludes our introduction to logarithms. In the lessons to follow we will learn some important properties of logarithms. One of these properties will give us a very important tool which we need to solve exponential equations. Until then let’s practice with the basic themes of this lesson.
That’s All Folks !

Recommandé

Logarithmic Functions
Logarithmic FunctionsLogarithmic Functions
Logarithmic Functions
swartzje
 
Exponential functions
Exponential functionsExponential functions
Exponential functions
Ron Eick
 
Exponential and logarithmic functions
Exponential and logarithmic functionsExponential and logarithmic functions
Exponential and logarithmic functions
Njabulo Nkabinde
 
Lesson 3: The Limit of a Function
Lesson 3: The Limit of a FunctionLesson 3: The Limit of a Function
Lesson 3: The Limit of a Function
Matthew Leingang
 
3.2 Logarithmic Functions
3.2 Logarithmic Functions3.2 Logarithmic Functions
3.2 Logarithmic Functions
lgemgnani
 
Introduction to Function, Domain and Range - Mohd Noor
Introduction to Function, Domain and Range - Mohd Noor Introduction to Function, Domain and Range - Mohd Noor
Introduction to Function, Domain and Range - Mohd Noor
Mohd. Noor Abdul Hamid
 
5 6 laws of logarithms
5 6 laws of logarithms5 6 laws of logarithms
5 6 laws of logarithms
hisema01
 
Zeros of a polynomial function
Zeros of a polynomial functionZeros of a polynomial function
Zeros of a polynomial function
MartinGeraldine
 

Recommandé

Logarithmic Functions
Logarithmic FunctionsLogarithmic Functions
Logarithmic Functions
swartzje
 
Exponential functions
Exponential functionsExponential functions
Exponential functions
Ron Eick
 
Exponential and logarithmic functions
Exponential and logarithmic functionsExponential and logarithmic functions
Exponential and logarithmic functions
Njabulo Nkabinde
 
Lesson 3: The Limit of a Function
Lesson 3: The Limit of a FunctionLesson 3: The Limit of a Function
Lesson 3: The Limit of a Function
Matthew Leingang
 
3.2 Logarithmic Functions
3.2 Logarithmic Functions3.2 Logarithmic Functions
3.2 Logarithmic Functions
lgemgnani
 
Introduction to Function, Domain and Range - Mohd Noor
Introduction to Function, Domain and Range - Mohd Noor Introduction to Function, Domain and Range - Mohd Noor
Introduction to Function, Domain and Range - Mohd Noor
Mohd. Noor Abdul Hamid
 
5 6 laws of logarithms
5 6 laws of logarithms5 6 laws of logarithms
5 6 laws of logarithms
hisema01
 
Zeros of a polynomial function
Zeros of a polynomial functionZeros of a polynomial function
Zeros of a polynomial function
MartinGeraldine
 
8.4 logarithmic functions
8.4 logarithmic functions8.4 logarithmic functions
8.4 logarithmic functions
hisema01
 
Logarithm
LogarithmLogarithm
Logarithm
itutor
 
Limit of functions
Limit of functionsLimit of functions
Limit of functions
Juan Apolinario Reyes
 
Quadratic functions
Quadratic functionsQuadratic functions
Quadratic functions
Reynaldo San Juan
 
Exponential Functions
Exponential FunctionsExponential Functions
Exponential Functions
itutor
 
Rational Expressions
Rational ExpressionsRational Expressions
Rational Expressions
Ver Louie Gautani
 
Relations and Functions
Relations and FunctionsRelations and Functions
Relations and Functions
toni dimella
 
Adding and subtracting rational expressions
Adding and subtracting rational expressionsAdding and subtracting rational expressions
Adding and subtracting rational expressions
Dawn Adams2
 
2.4 Linear Functions
2.4 Linear Functions2.4 Linear Functions
2.4 Linear Functions
smiller5
 
Rational functions
Rational functionsRational functions
Rational functions
zozima
 
Exponential functions
Exponential functionsExponential functions
Exponential functions
Jessica Garcia
 
Inverse functions
Inverse functionsInverse functions
Inverse functions
Jessica Garcia
 
Properties of logarithms
Properties of logarithmsProperties of logarithms
Properties of logarithms
Jessica Garcia
 
Polynomials
PolynomialsPolynomials
Polynomials
Poonam Singh
 
Domain and range
Domain and rangeDomain and range
Domain and range
Northside ISD
 
Inverse function
Inverse functionInverse function
Inverse function
Mehedi Hasan Raju
 
Piecewise functions
Piecewise functions Piecewise functions
Piecewise functions
stem redsea high school
 
Slope of a Line
Slope of a LineSlope of a Line
Slope of a Line
karen wagoner
 
Solving Systems by Substitution
Solving Systems by SubstitutionSolving Systems by Substitution
Solving Systems by Substitution
swartzje
 
Composition Of Functions
Composition Of FunctionsComposition Of Functions
Composition Of Functions
sjwong
 
C) solving equations
C) solving equationsC) solving equations
C) solving equations
Asawari Warkad
 
Indices & logarithm
Indices & logarithmIndices & logarithm
Indices & logarithm
Arjuna Senanayake
 

Contenu connexe

Tendances

8.4 logarithmic functions
8.4 logarithmic functions8.4 logarithmic functions
8.4 logarithmic functions
hisema01
 
Logarithm
LogarithmLogarithm
Logarithm
itutor
 
Exponential Functions
Exponential FunctionsExponential Functions
Exponential Functions
itutor
 
Relations and Functions
Relations and FunctionsRelations and Functions
Relations and Functions
toni dimella
 
Rational functions
Rational functionsRational functions
Rational functions
zozima
 
Properties of logarithms
Properties of logarithmsProperties of logarithms
Properties of logarithms
Jessica Garcia
 
Composition Of Functions
Composition Of FunctionsComposition Of Functions
Composition Of Functions
sjwong
 

Tendances (20)

8.4 logarithmic functions
8.4 logarithmic functions8.4 logarithmic functions
8.4 logarithmic functions
 
Logarithm
LogarithmLogarithm
Logarithm
 
Limit of functions
Limit of functionsLimit of functions
Limit of functions
 
Quadratic functions
Quadratic functionsQuadratic functions
Quadratic functions
 
Exponential Functions
Exponential FunctionsExponential Functions
Exponential Functions
 
Rational Expressions
Rational ExpressionsRational Expressions
Rational Expressions
 
Relations and Functions
Relations and FunctionsRelations and Functions
Relations and Functions
 
Adding and subtracting rational expressions
Adding and subtracting rational expressionsAdding and subtracting rational expressions
Adding and subtracting rational expressions
 
2.4 Linear Functions
2.4 Linear Functions2.4 Linear Functions
2.4 Linear Functions
 
Rational functions
Rational functionsRational functions
Rational functions
 
Exponential functions
Exponential functionsExponential functions
Exponential functions
 
Inverse functions
Inverse functionsInverse functions
Inverse functions
 
Properties of logarithms
Properties of logarithmsProperties of logarithms
Properties of logarithms
 
Polynomials
PolynomialsPolynomials
Polynomials
 
Domain and range
Domain and rangeDomain and range
Domain and range
 
Inverse function
Inverse functionInverse function
Inverse function
 
Piecewise functions
Piecewise functions Piecewise functions
Piecewise functions
 
Slope of a Line
Slope of a LineSlope of a Line
Slope of a Line
 
Solving Systems by Substitution
Solving Systems by SubstitutionSolving Systems by Substitution
Solving Systems by Substitution
 
Composition Of Functions
Composition Of FunctionsComposition Of Functions
Composition Of Functions
 

Similaire à Logarithms and logarithmic functions

Ch 8 exponential equations and graphing
Ch 8 exponential equations and graphingCh 8 exponential equations and graphing
Ch 8 exponential equations and graphing
swartzje
 

Similaire à Logarithms and logarithmic functions (20)

C) solving equations
C) solving equationsC) solving equations
C) solving equations
 
Indices & logarithm
Indices & logarithmIndices & logarithm
Indices & logarithm
 
Power Laws
Power LawsPower Laws
Power Laws
 
Ch 8 exponential equations and graphing
Ch 8 exponential equations and graphingCh 8 exponential equations and graphing
Ch 8 exponential equations and graphing
 
Exponents
ExponentsExponents
Exponents
 
Mc ty-logarithms-2009-1
Mc ty-logarithms-2009-1Mc ty-logarithms-2009-1
Mc ty-logarithms-2009-1
 
Logarithms Text
Logarithms TextLogarithms Text
Logarithms Text
 
Module 2 topic 1 notes
Module 2 topic 1 notesModule 2 topic 1 notes
Module 2 topic 1 notes
 
Element distinctness lower bounds
Element distinctness lower boundsElement distinctness lower bounds
Element distinctness lower bounds
 
Lar calc10 ch05_sec1
Lar calc10 ch05_sec1Lar calc10 ch05_sec1
Lar calc10 ch05_sec1
 
log.pptx
log.pptxlog.pptx
log.pptx
 
Transform idea
Transform ideaTransform idea
Transform idea
 
Intro to Logs
Intro to LogsIntro to Logs
Intro to Logs
 
Logs
LogsLogs
Logs
 
Algorithm and flowchart with pseudo code
Algorithm and flowchart with pseudo codeAlgorithm and flowchart with pseudo code
Algorithm and flowchart with pseudo code
 
Calc i complete
Calc i completeCalc i complete
Calc i complete
 
Algebra prelims
Algebra prelimsAlgebra prelims
Algebra prelims
 
EMBODO LP Grade 11 Anti-derivative of Polynomial Functions .docx
EMBODO LP Grade 11 Anti-derivative of Polynomial Functions .docxEMBODO LP Grade 11 Anti-derivative of Polynomial Functions .docx
EMBODO LP Grade 11 Anti-derivative of Polynomial Functions .docx
 
Rafsay castillo
Rafsay castilloRafsay castillo
Rafsay castillo
 
Polynomials 12.2 12.4
Polynomials 12.2 12.4Polynomials 12.2 12.4
Polynomials 12.2 12.4
 

Plus de Jessica Garcia

7th daily 10 10-14 proportions vocabulary and long division
7th daily 10 10-14 proportions vocabulary and long division7th daily 10 10-14 proportions vocabulary and long division
7th daily 10 10-14 proportions vocabulary and long division
Jessica Garcia
 
Systems of equaions graphing
Systems of equaions graphingSystems of equaions graphing
Systems of equaions graphing
Jessica Garcia
 
Square and square roots
Square and square rootsSquare and square roots
Square and square roots
Jessica Garcia
 
Jeopardy laws of exponents
Jeopardy laws of exponentsJeopardy laws of exponents
Jeopardy laws of exponents
Jessica Garcia
 
Compute with scientific notation
Compute with scientific notationCompute with scientific notation
Compute with scientific notation
Jessica Garcia
 
Scientific notation ppt
Scientific notation pptScientific notation ppt
Scientific notation ppt
Jessica Garcia
 

Plus de Jessica Garcia (20)

Test 1 a_ratios_and_proportional_reasoning
Test 1 a_ratios_and_proportional_reasoningTest 1 a_ratios_and_proportional_reasoning
Test 1 a_ratios_and_proportional_reasoning
 
Unit 2 Proportions Reasoning Rubric
Unit 2 Proportions Reasoning RubricUnit 2 Proportions Reasoning Rubric
Unit 2 Proportions Reasoning Rubric
 
Throw a dinner party report
Throw a dinner party reportThrow a dinner party report
Throw a dinner party report
 
Slope
SlopeSlope
Slope
 
Reteach constant rate of change
Reteach constant rate of changeReteach constant rate of change
Reteach constant rate of change
 
Skills practice constant rate of change
Skills practice constant rate of changeSkills practice constant rate of change
Skills practice constant rate of change
 
Rate of change
Rate of changeRate of change
Rate of change
 
Rate of change and slope
Rate of change and slopeRate of change and slope
Rate of change and slope
 
How do fractions apply to unit rates?7th daily 10 14-14 complex fractions and...
How do fractions apply to unit rates?7th daily 10 14-14 complex fractions and...How do fractions apply to unit rates?7th daily 10 14-14 complex fractions and...
How do fractions apply to unit rates?7th daily 10 14-14 complex fractions and...
 
7th daily 10 13-14 rates and unit rates
7th daily 10 13-14 rates and unit rates7th daily 10 13-14 rates and unit rates
7th daily 10 13-14 rates and unit rates
 
7th daily 10 10-14 proportions vocabulary and long division
7th daily 10 10-14 proportions vocabulary and long division7th daily 10 10-14 proportions vocabulary and long division
7th daily 10 10-14 proportions vocabulary and long division
 
7th daily 10 10-14 proportions vocabulary and long division
7th daily 10 10-14 proportions vocabulary and long division7th daily 10 10-14 proportions vocabulary and long division
7th daily 10 10-14 proportions vocabulary and long division
 
Part 1: Vocabulary; How do you solve proportions?
Part 1: Vocabulary; How do you solve proportions? Part 1: Vocabulary; How do you solve proportions?
Part 1: Vocabulary; How do you solve proportions?
 
Systems of equaions graphing
Systems of equaions graphingSystems of equaions graphing
Systems of equaions graphing
 
Real numbers
Real numbersReal numbers
Real numbers
 
Cubes
CubesCubes
Cubes
 
Square and square roots
Square and square rootsSquare and square roots
Square and square roots
 
Jeopardy laws of exponents
Jeopardy laws of exponentsJeopardy laws of exponents
Jeopardy laws of exponents
 
Compute with scientific notation
Compute with scientific notationCompute with scientific notation
Compute with scientific notation
 
Scientific notation ppt
Scientific notation pptScientific notation ppt
Scientific notation ppt
 

Dernier

Vishram Singh - Textbook of Anatomy Upper Limb and Thorax.. Volume 1 (1).pdf
Vishram Singh - Textbook of Anatomy Upper Limb and Thorax.. Volume 1 (1).pdfVishram Singh - Textbook of Anatomy Upper Limb and Thorax.. Volume 1 (1).pdf
Vishram Singh - Textbook of Anatomy Upper Limb and Thorax.. Volume 1 (1).pdf
ssuserdda66b
 
The basics of sentences session 3pptx.pptx
The basics of sentences session 3pptx.pptxThe basics of sentences session 3pptx.pptx
The basics of sentences session 3pptx.pptx
heathfieldcps1
 

Dernier (20)

ICT Role in 21st Century Education & its Challenges.pptx
ICT Role in 21st Century Education & its Challenges.pptxICT Role in 21st Century Education & its Challenges.pptx
ICT Role in 21st Century Education & its Challenges.pptx
 
FSB Advising Checklist - Orientation 2024
FSB Advising Checklist - Orientation 2024FSB Advising Checklist - Orientation 2024
FSB Advising Checklist - Orientation 2024
 
How to Manage Global Discount in Odoo 17 POS
How to Manage Global Discount in Odoo 17 POSHow to Manage Global Discount in Odoo 17 POS
How to Manage Global Discount in Odoo 17 POS
 
SOC 101 Demonstration of Learning Presentation
SOC 101 Demonstration of Learning PresentationSOC 101 Demonstration of Learning Presentation
SOC 101 Demonstration of Learning Presentation
 
Accessible Digital Futures project (20/03/2024)
Accessible Digital Futures project (20/03/2024)Accessible Digital Futures project (20/03/2024)
Accessible Digital Futures project (20/03/2024)
 
Understanding Accommodations and Modifications
Understanding Accommodations and ModificationsUnderstanding Accommodations and Modifications
Understanding Accommodations and Modifications
 
Mixin Classes in Odoo 17 How to Extend Models Using Mixin Classes
Mixin Classes in Odoo 17 How to Extend Models Using Mixin ClassesMixin Classes in Odoo 17 How to Extend Models Using Mixin Classes
Mixin Classes in Odoo 17 How to Extend Models Using Mixin Classes
 
ComPTIA Overview | Comptia Security+ Book SY0-701
ComPTIA Overview | Comptia Security+ Book SY0-701ComPTIA Overview | Comptia Security+ Book SY0-701
ComPTIA Overview | Comptia Security+ Book SY0-701
 
Vishram Singh - Textbook of Anatomy Upper Limb and Thorax.. Volume 1 (1).pdf
Vishram Singh - Textbook of Anatomy Upper Limb and Thorax.. Volume 1 (1).pdfVishram Singh - Textbook of Anatomy Upper Limb and Thorax.. Volume 1 (1).pdf
Vishram Singh - Textbook of Anatomy Upper Limb and Thorax.. Volume 1 (1).pdf
 
Spatium Project Simulation student brief
Spatium Project Simulation student briefSpatium Project Simulation student brief
Spatium Project Simulation student brief
 
Explore beautiful and ugly buildings. Mathematics helps us create beautiful d...
Explore beautiful and ugly buildings. Mathematics helps us create beautiful d...Explore beautiful and ugly buildings. Mathematics helps us create beautiful d...
Explore beautiful and ugly buildings. Mathematics helps us create beautiful d...
 
SKILL OF INTRODUCING THE LESSON MICRO SKILLS.pptx
SKILL OF INTRODUCING THE LESSON MICRO SKILLS.pptxSKILL OF INTRODUCING THE LESSON MICRO SKILLS.pptx
SKILL OF INTRODUCING THE LESSON MICRO SKILLS.pptx
 
Holdier Curriculum Vitae (April 2024).pdf
Holdier Curriculum Vitae (April 2024).pdfHoldier Curriculum Vitae (April 2024).pdf
Holdier Curriculum Vitae (April 2024).pdf
 
Towards a code of practice for AI in AT.pptx
Towards a code of practice for AI in AT.pptxTowards a code of practice for AI in AT.pptx
Towards a code of practice for AI in AT.pptx
 
Dyslexia AI Workshop for Slideshare.pptx
Dyslexia AI Workshop for Slideshare.pptxDyslexia AI Workshop for Slideshare.pptx
Dyslexia AI Workshop for Slideshare.pptx
 
Food safety_Challenges food safety laboratories_.pdf
Food safety_Challenges food safety laboratories_.pdfFood safety_Challenges food safety laboratories_.pdf
Food safety_Challenges food safety laboratories_.pdf
 
Sociology 101 Demonstration of Learning Exhibit
Sociology 101 Demonstration of Learning ExhibitSociology 101 Demonstration of Learning Exhibit
Sociology 101 Demonstration of Learning Exhibit
 
The basics of sentences session 3pptx.pptx
The basics of sentences session 3pptx.pptxThe basics of sentences session 3pptx.pptx
The basics of sentences session 3pptx.pptx
 
Key note speaker Neum_Admir Softic_ENG.pdf
Key note speaker Neum_Admir Softic_ENG.pdfKey note speaker Neum_Admir Softic_ENG.pdf
Key note speaker Neum_Admir Softic_ENG.pdf
 
2024-NATIONAL-LEARNING-CAMP-AND-OTHER.pptx
2024-NATIONAL-LEARNING-CAMP-AND-OTHER.pptx2024-NATIONAL-LEARNING-CAMP-AND-OTHER.pptx
2024-NATIONAL-LEARNING-CAMP-AND-OTHER.pptx
 

Logarithms and logarithmic functions

  • 2. Why is logarithmic scale used to measure sound?
  • 3. Our first question then must be: What is a logarithm ?
  • 5. (3,8) (2,4) (1,2) (-1,1/2) (-2,1/4) (8,3) (4,2) (2,1) (1/2,-1) (-1/4,-2) Inverse of
  • 6. The inverse of is the function
  • 7. (3,8) (2,4) (1,2) (-1,1/2) (-2,1/4)
  • 8. Domain of logarithmic function = Range of exponential function = Range of logarithmic function = Domain of exponential function =
  • 9. 1. The x -intercept of the graph is 1. There is no y -intercept. 2. The y -axis is a vertical asymptote of the graph. 3. A logarithmic function is decreasing if 0 < a < 1 and increasing if a > 1. 4. The graph contains the points (1,0) and (a,1). Properties of the Graph of a Logarithmic Function
  • 10.
  • 11. Of course logarithms have a precise mathematical definition just like all terms in mathematics. So let’s start with that.
  • 12. Definition of Logarithm Suppose b>0 and b≠1, there is a number ‘p’ such that:
  • 13.  
  • 14. The first, and perhaps the most important step, in understanding logarithms is to realize that they always relate back to exponential equations.
  • 15. You must be able to convert an exponential equation into logarithmic form and vice versa. So let’s get a lot of practice with this !
  • 16. Example 1: Solution: We read this as: ”the log base 2 of 8 is equal to 3”.
  • 17. Example 1a: Solution: Read as: “the log base 4 of 16 is equal to 2”.
  • 19. Okay, so now it’s time for you to try some on your own.
  • 23. It is also very important to be able to start with a logarithmic expression and change this into exponential form. This is simply the reverse of what we just did.
  • 26. Okay, now you try these next three.
  • 30. We now know that a logarithm is perhaps best understood as being closely related to an exponential equation. In fact, whenever we get stuck in the problems that follow we will return to this one simple insight. We might even state a simple rule.
  • 31. When working with logarithms, if ever you get “stuck”, try rewriting the problem in exponential form. Conversely, when working with exponential expressions, if ever you get “stuck”, try rewriting the problem in logarithmic form.
  • 32. Let’s see if this simple rule can help us solve some of the following problems.
  • 33. Solution: Let’s rewrite the problem in exponential form. We’re finished !
  • 34. Solution: Rewrite the problem in exponential form.
  • 35. Example 3 Try setting this up like this: Solution: Now rewrite in exponential form.
  • 36. These next two problems tend to be some of the trickiest to evaluate. Actually, they are merely identities and the use of our simple rule will show this.
  • 37. Example 4 Solution: Now take it out of the logarithmic form and write it in exponential form. First, we write the problem with a variable.
  • 38. Example 5 Solution: First, we write the problem with a variable. Now take it out of the exponential form and write it in logarithmic form.
  • 39. Ask your teacher about the last two examples. They may show you a nice shortcut.
  • 40. Finally, we want to take a look at the Property of Equality for Logarithmic Functions. Basically, with logarithmic functions, if the bases match on both sides of the equal sign , then simply set the arguments equal.
  • 42. Example 1 Solution: Since the bases are both ‘3’ we simply set the arguments equal.
  • 43. Example 2 Solution: Since the bases are both ‘8’ we simply set the arguments equal. Factor continued on the next page
  • 44. Example 2 continued Solution: It appears that we have 2 solutions here. If we take a closer look at the definition of a logarithm however, we will see that not only must we use positive bases, but also we see that the arguments must be positive as well. Therefore -2 is not a solution. Let’s end this lesson by taking a closer look at this.
  • 45. Our final concern then is to determine why logarithms like the one below are undefined. Can anyone give us an explanation ?
  • 46. One easy explanation is to simply rewrite this logarithm in exponential form. We’ll then see why a negative value is not permitted. First, we write the problem with a variable. Now take it out of the logarithmic form and write it in exponential form. What power of 2 would gives us -8 ? Hence expressions of this type are undefined.
  • 47.  
  • 48.  
  • 49. That concludes our introduction to logarithms. In the lessons to follow we will learn some important properties of logarithms. One of these properties will give us a very important tool which we need to solve exponential equations. Until then let’s practice with the basic themes of this lesson.