Introduction to Logarithmic Functions

Slides:

Advertisements

Similar presentations

Graphs of Exponential and Logarithmic Functions

Advertisements

Logarithms – making complex calculations easy

4.3 Logarithmic Functions and Graphs Do Now Find the inverse of f(x) = 4x^2 - 1.

Logarithmic Functions & Their Graphs

5.2 Logarithmic Functions & Their Graphs

Logarithmic Functions

Exponential and Logarithmic Functions and Equations

Section 6.3. This value is so important in mathematics that it has been given its own symbol, e, sometimes called Euler’s number. The number e has many.

Objectives & Vocabulary

Objectives Write equivalent forms for exponential and logarithmic functions. Write, evaluate, and graph logarithmic functions.

Logarithms Logs ARE EXPONENTS!! Logarithms are a way to rewrite exponential equations. They help us solve equations as well.

Holt Algebra Logarithmic Functions Write equivalent forms for exponential and logarithmic functions. Write, evaluate, and graph logarithmic functions.

FUNDAMENTALS OF ALGEBRA 2A CHAPTER 8 POWERPOINT PRESENTATION

Log a x y. Recognize and evaluate logarithmic functions with base a Graph logarithmic functions Recognize, evaluate, and graph natural logarithmic functions.

Logarithmic Functions & Graphs, Lesson 3.2, page 388 Objective: To graph logarithmic functions, to convert between exponential and logarithmic equations,

Q Exponential functions f (x) = a x are one-to-one functions. Q (from section 3.7) This means they each have an inverse function. Q We denote the inverse.

Notes Over 8.4 Rewriting Logarithmic Equations Rewrite the equation in exponential form.

Section 9.2 Exponential Functions  Evaluating Rational & Irrational Exponents  Graphing Exponential Functions f(x) = a x  Equations with x and y Interchanged.

Lesson 12-2 Exponential & Logarithmic Functions

Section 9.3 Logarithmic Functions  Graphs of Logarithmic Functions Log 2 x  Equivalent Equations  Solving Certain Logarithmic Equations 9.31.

Logarithms 2.5 Chapter 2 Exponents and Logarithms 2.5.1

10.2 Logarithms and Logarithmic Functions Objectives: 1.Evaluate logarithmic expressions. 2.Solve logarithmic equations and inequalities.

STUDENTS WILL BE ABLE TO: CONVERT BETWEEN EXPONENT AND LOG FORMS SOLVE LOG EQUATIONS OF FORM LOG B Y=X FOR B, Y, AND X LOGARITHMIC FUNCTIONS.

5.2 Logarithmic Functions & Their Graphs Goals— Recognize and evaluate logarithmic functions with base a Graph Logarithmic functions Recognize, evaluate,

Chapter 4 – Exponential and Logarithmic Functions Logarithmic Functions.

Algebra II 7.4: Evaluate Logarithms HW: None Chapter 7 Test: , 7.6: Tuesday, 3/3 Fire:

Introduction To Logarithms. Introduction to Logarithmic Functions You were introduced to inverse functions. Inverse functions is the set of ordered pair.

Inverse Functions.

Objective: To graph logarithmic functions, to convert between exponential and logarithmic equations, and find common and natural logarithms using a calculator.

Graphing Log Functions Pre-Calculus. Graphing Logarithms Objectives:  Make connections between log functions and exponential functions  Construct a.

Table of Contents Logarithmic Function - Graphing Example Sketch the graph of the logarithmic function... First, write the function in its exponential.

Holt McDougal Algebra Logarithmic Functions Write equivalent forms for exponential and logarithmic functions. Write, evaluate, and graph logarithmic.

4.2 Logarithmic Functions

IB Math SL1 - Santowski Lesson 21– The Logarithmic Function – An Inverse Perspective 2/22/ IB Math SL1 - Santowski.

GPS: MM3A2c, MM3A2e, MM3A2f.  MM3A2c – Define logarithmic functions as inverses of exponential functions.  MM3A2f – Graph functions as transformations.

8.4 Logarithmic Functions

Algebra 2 Notes May 4,  Graph the following equation:  What equation is that log function an inverse of? ◦ Step 1: Use a table to graph the exponential.

Logarithmic Properties Exponential Function y = b x Logarithmic Function x = b y y = log b x Exponential Form Logarithmic Form.

Lesson 10.2Logarithmic Functions Logarithm: Inverse of exponential functions. “log base 2 of 6” Ex: Domain: x>0 Range: all real numbers Inverse of exponential.

Objective: Students will be able to write equivalent forms for exponential and logarithmic functions, and can write, evaluate, and graph logarithmic functions.

Exponential & Logarithmic functions. Exponential Functions y= a x ; 1 ≠ a > 0,that’s a is a positive fraction or a number greater than 1 Case(1): a >

LEQ: How do you evaluate logarithms with a base b? Logarithms to Bases Other Than 10 Sec. 9-7.

9.1, 9.3 Exponents and Logarithms

LEQ: HOW DO YOU EVALUATE COMMON LOGARITHMS? Common Logarithms Sec. 9-5.

LOGARITHMS. Find the inverse function for each of the functions below. 1.f(x) = 3x – f(x) = 2 x.

2.5.1 MATHPOWER TM 12, WESTERN EDITION 2.5 Chapter 2 Exponents and Logarithms.

Goals:  Understand logarithms as the inverse of exponents  Convert between exponential and logarithmic forms  Evaluate logarithmic functions.

Logarithmic Functions & Their Graphs Goals— Recognize and evaluate logarithmic functions with base a Graph Logarithmic functions Recognize, evaluate, and.

Aim: What is the logarithms?

Logarithmic Functions

Logarithmic Functions

5.3 Logarithmic Functions & Graphs

Logarithmic Functions

Copyright © 2014, 2010, 2007 Pearson Education, Inc.

Unit 8 [7-3 in text] Logarithmic Functions

5.4 Logarithmic Functions and Models

The Natural Base, e Essential Questions

Logarithmic Functions

Warm-up: Solve for x. 2x = 8 2) 4x = 1 3) ex = e 4) 10x = 0.1

3.1 EXPONENTIAL & LOG FUNCTIONS

Introduction to Logarithmic Functions

Introduction to Logarithmic Functions

Inverse Functions.

Objectives Write equivalent forms for exponential and logarithmic functions. Write, evaluate, and graph logarithmic functions.

Aim: What is the logarithms?

Introduction to Logarithmic Functions

6.3 Logarithms and Logarithmic Functions

Logarithmic Functions

Review: How do you find the inverse of a function? Application of what you know… What is the inverse of f(x) = 3x? y = 3x x = 3y y = log3x f-1(x) = log3x.

Presentation transcript:

Introduction to Logarithmic Functions Unit 3: Exponential and Logarithmic Functions

Introduction to Logarithmic Functions GRAPHS OF EXPONENTIALS AND ITS INVERSE In Grade 11, you were introduced to inverse functions. Inverse functions is the set of ordered pair obtained by interchanging the x and y values. f(x) f-1(x)

Introduction to Logarithmic Functions GRAPHS OF EXPONENTIALS AND ITS INVERSE Inverse functions can be created graphically by a reflection on the y = x axis. f(x) y = x f-1(x)

Introduction to Logarithmic Functions GRAPHS OF EXPONENTIALS AND ITS INVERSE A logarithmic function is the inverse of an exponential function Exponential functions have the following characteristics: Domain: {x є R} Range: {y > 0}

Introduction to Logarithmic Functions GRAPHS OF EXPONENTIALS AND ITS INVERSE Let us graph the exponential function y = 2x Table of values:

Introduction to Logarithmic Functions GRAPHS OF EXPONENTIALS AND ITS INVERSE Let us find the inverse the exponential function y = 2x Table of values:

Introduction to Logarithmic Functions GRAPHS OF EXPONENTIALS AND ITS INVERSE When we add the function f(x) = 2x to this graph, it is evident that the inverse is a reflection on the y = x axis f(x) f-1(x) f(x) f-1(x)

Introduction to Logarithmic Functions FINDING THE INVERSE OF AN EXPONENTIAL Next, you will find the inverse of an exponential algebraically Write the process in your notes base exponent y = ax x = ay Interchange x  y x = ay We write these functions as: x = ay y = logax y = logax base exponent

Introduction to Logarithmic Functions FINDING THE INVERSE OF AN EXPONENTIAL x y y x log = a Inverse of the Exponential Function Logarithmic Form Exponential Function

Introduction to Logarithmic Functions CHANGING FORMS Example 1) Write the following into logarithmic form: a) 33 = 27 b) 45 = 256 c) 27 = 128 d) (1/3)x=27 ANSWERS

Introduction to Logarithmic Functions CHANGING FORMS Example 1) Write the following into logarithmic form: a) 33 = 27 log327=3 b) 45 = 256 log4256=5 c) 27 = 128 log2128=7 d) (1/3)x=27 log1/327=x

Introduction to Logarithmic Functions CHANGING FORMS Example 2) Write the following into exponential form: a) log264=6 b) log255=1/2 c) log81=0 d) log1/39=2 ANSWERS

Introduction to Logarithmic Functions CHANGING FORMS Example 2) Write the following into exponential form: a) log264=6 26 = 64 b) log255=1/2 251/2 = 5 c) log81=0 80 = 1 (1/3)2 = 1/9 d) log1/39=2

Introduction to Logarithmic Functions EVALUATING LOGARITHMS Example 3) Find the value of x for each example: a) log1/327 = x b) log5x = 3 c) logx(1/9) = 2 d) log3x = 0 ANSWERS

Introduction to Logarithmic Functions EVALUATING LOGARITHMS Example 3) Find the value of x for each example: a) log1/327 = x b) log5x = 3 (1/3)x = 27 (1/3)x = (1/3)-3 x = -3 53 = x x = 125 c) logx(1/9) = 2 d) log3x = 0 x2 = (1/9) x = 1/3 30 = x x = 1

Introduction to Logarithmic Functions BASE 10 LOGS Scientific calculators can perform logarithmic operations. Your calculator has a LOG button. This button represents logarithms in BASE 10 or log10 Example 4) Use your calculator to find the value of each of the following: a) log101000 b) log 50 c) log -1000 = Out of Domain = 3 = 1.699

Introduction to Logarithmic Functions COMPLETED PRESENTATION You have completed the presentation on Introduction to Logarithmic functions. Go back to the content page to review.