Presentation is loading. Please wait.

Presentation is loading. Please wait.

Exponential and Logarithmic Functions 5. 5.1 Exponents and Exponential Functions Exponential and Logarithmic Functions Objectives Review the laws of exponents.

Published byLouisa Montgomery Modified over 8 years ago

Similar presentations

Presentation on theme: "Exponential and Logarithmic Functions 5. 5.1 Exponents and Exponential Functions Exponential and Logarithmic Functions Objectives Review the laws of exponents."— Presentation transcript:

1 Exponential and Logarithmic Functions 5

2 5.1 Exponents and Exponential Functions Exponential and Logarithmic Functions Objectives Review the laws of exponents. Solve exponential equations. Graph exponential functions.

3 Exponents Property 5.1 If a and b are positive real numbers and m and n are any real numbers, then the following properties hold: 1. Product of two powers 2. Power of a power 3. Power of a product 4. Power of a quotient 5. Quotient of two powers

4 Exponents Property 5.2 If b > 0 but b 1, and if m and n are real numbers, then b n = b m if and only if n = m

5 Exponents Solve 2 x = 32. Example 1

6 Exponents Solution: 2 x = 32 2 x = 2 5 32 = 2 5 x = 5 Apply Property 5.2 The solution set is {5}. Example 1

7 Exponential Functions If b is any positive number, then the expression b x designates exactly one real number for every real value of x. Therefore the equation f(x) = b x defines a function whose domain is the set of real numbers. Furthermore, if we add the restriction b 1, then any equation of the form f(x) = b x describes what we will call later a one-to-one function and is called an exponential function.

8 Exponential Functions Definition 5.1 If b > 0 and b 1, then the function f defined by f (x) = b x where x is any real number, is called the exponential function with base b.

9 Exponential Functions The function f (x) = 1 x is a constant function (its graph is a horizontal line), and therefore it is not an exponential function.

10 Exponential Functions Graph the function f (x) = 2 x. Example 6

11 Exponential Functions Solution: Let’s set up a table of values. Keep in mind that the domain is the set of real numbers and the equation f (x) = 2 x exhibits no symmetry. We can plot the points and connect them with a smooth curve to produce Figure 5.1. Example 6 Figure 5.1

12 Exponential Functions Figure 5.2 The graphs in Figures 5.1 and 5.2 illustrate a general behavior pattern of exponential functions. That is, if b > 1, then the graph of f (x) = b x goes up to the right, and the function is called an increasing function. If 0 < b < 1, then the graph of f (x) = b x goes down to the right, and the function is called a decreasing function. Continued...

13 Exponential Functions These facts are illustrated in Figure 5.3. Notice that b 0 = 1 for any b > 0; thus, all graphs of f (x) = b x contain the point (0, 1). Note that the x axis is a horizontal asymptote of the graphs of f (x) = b x. Figure 5.3

Download ppt "Exponential and Logarithmic Functions 5. 5.1 Exponents and Exponential Functions Exponential and Logarithmic Functions Objectives Review the laws of exponents."

Similar presentations

Warm Up Find the zeros of the following function F(x) = x2 -1

Warm Up Find the zeros of the following function F(x) = x2 -1
Exponential and Logarithmic Functions

Exponential and Logarithmic Functions
State the domain and range of each function. 3.1 Graphs of Exponential Functions.

State the domain and range of each function. 3.1 Graphs of Exponential Functions.
4.3 - 1 10 TH EDITION LIAL HORNSBY SCHNEIDER COLLEGE ALGEBRA.

TH EDITION LIAL HORNSBY SCHNEIDER COLLEGE ALGEBRA.
7 INVERSE FUNCTIONS.

7 INVERSE FUNCTIONS.
3  Exponential Functions  Logarithmic Functions  Exponential Functions as Mathematical Models Exponential and Logarithmic Functions.

3  Exponential Functions  Logarithmic Functions  Exponential Functions as Mathematical Models Exponential and Logarithmic Functions.
To Solve Equations which Involve Exponents.

To Solve Equations which Involve Exponents.
5.2 Logarithmic Functions & Their Graphs

5.2 Logarithmic Functions & Their Graphs
Logarithmic Functions Section 2. Objectives Change Exponential Expressions to Logarithmic Expressions and Logarithmic Expressions to Exponential Expressions.

Logarithmic Functions Section 2. Objectives Change Exponential Expressions to Logarithmic Expressions and Logarithmic Expressions to Exponential Expressions.
Exponential Functions Section 1. Exponential Function f(x) = a x, a > 0, a ≠ 1 The base is a constant and the exponent is a variable, unlike a power function.

Exponential Functions Section 1. Exponential Function f(x) = a x, a > 0, a ≠ 1 The base is a constant and the exponent is a variable, unlike a power function.
Logarithmic Functions

Logarithmic Functions
4.2 Logarithmic Functions

4.2 Logarithmic Functions
Exponential and Logarithmic Functions 5. 5.4 Logarithmic Functions EXPONENTIAL AND LOGARITHMIC FUNCTIONS Objectives Graph logarithmic functions. Evaluate.

Exponential and Logarithmic Functions Logarithmic Functions EXPONENTIAL AND LOGARITHMIC FUNCTIONS Objectives Graph logarithmic functions. Evaluate.
Exponential and Logarithmic Functions and Equations

Exponential and Logarithmic Functions and Equations
Exponential and Logarithmic Functions and Equations

Exponential and Logarithmic Functions and Equations
Chapter 4.3 Logarithms. The previous section dealt with exponential function of the form y = a x for all positive values of a, where a ≠1.

Chapter 4.3 Logarithms. The previous section dealt with exponential function of the form y = a x for all positive values of a, where a ≠1.
Exponential Functions Section 1. Exponential Function f(x) = a x, a > 0, a ≠ 1 The base is a constant and the exponent is a variable, unlike a power function.

Exponential Functions Section 1. Exponential Function f(x) = a x, a > 0, a ≠ 1 The base is a constant and the exponent is a variable, unlike a power function.
Exponential Functions. Exponential Functions and Their Graphs.

Exponential Functions. Exponential Functions and Their Graphs.
Section 6.3 – Exponential Functions Laws of Exponents If s, t, a, and b are real numbers where a > 0 and b > 0, then: Definition: “a” is a positive real.

Section 6.3 – Exponential Functions Laws of Exponents If s, t, a, and b are real numbers where a > 0 and b > 0, then: Definition: “a” is a positive real.
Logarithmic Functions & Graphs, Lesson 3.2, page 388 Objective: To graph logarithmic functions, to convert between exponential and logarithmic equations,

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

Similar presentations

Ads by Google