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Splash Screen.

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Presentation on theme: "Splash Screen."— Presentation transcript:

1 Splash Screen

2 You found the inverse of a function. (Lesson 7–2)
Evaluate logarithmic expressions. Graph logarithmic functions. Then/Now

3 logarithm logarithmic function Vocabulary

4 Concept

5 A. Write log3 9 = 2 in exponential form.
Logarithmic to Exponential Form A. Write log3 9 = 2 in exponential form. log3 9 = 2 → 9 = 32 Answer: 9 = 32 Example 1

6 B. Write in exponential form.
Logarithmic to Exponential Form B. Write in exponential form. Answer: Example 1

7 A B C D A. What is log2 8 = 3 written in exponential form? A. 83 = 2
Example 1

8 A B C D B. What is –2 written in exponential form? A. B. C. D.
Example 1

9 A. Write 53 = 125 in logarithmic form.
Exponential to Logarithmic Form A. Write 53 = 125 in logarithmic form. 53 = 125 → log5 125 = 3 Answer: log5 125 = 3 Example 2

10 B. Write in logarithmic form.
Exponential to Logarithmic Form B. Write in logarithmic form. Answer: Example 2

11 A B C D A. What is 34 = 81 written in logarithmic form? A. log3 81 = 4
B. log4 81 = 3 C. log81 3 = 4 D. log3 4 = 81 A B C D Example 2

12 B. What is written in logarithmic form?
D. A B C D Example 2

13 log3 243 = y Let the logarithm equal y.
Evaluate Logarithmic Expressions Evaluate log3 243. log3 243 = y Let the logarithm equal y. 243 = 3y Definition of logarithm 35 = 3y 243 = 35 5 = y Property of Equality for Exponential Functions Answer: So, log3 243 = 5. Example 3

14 Evaluate log A. B. 3 C. 30 D. 10,000 A B C D Example 3

15 Concept

16 A. Graph the function f(x) = log3 x.
Graph Logarithmic Functions A. Graph the function f(x) = log3 x. Step 1 Identify the base. b = 3 Step 2 Determine points on the graph. Because 3 > 1, use the points (1, 0), and (b, 1). Step 3 Plot the points and sketch the graph. Example 4

17 Graph Logarithmic Functions
(1, 0) (b, 1) → (3, 1) Answer: Example 4

18 Step 2 Determine points on the graph.
Graph Logarithmic Functions B. Graph the function Step 1 Identify the base. Step 2 Determine points on the graph. Example 4

19 Graph Logarithmic Functions
Step 3 Sketch the graph. Answer: Example 4

20 A. Graph the function f(x) = log5x.
A. B. C. D. A B C D Example 4

21 B. Graph the function A. B. C. D. A B C D Example 4

22 Concept

23 This represents a transformation of the graph f(x) = log6 x.
Graph Logarithmic Functions This represents a transformation of the graph f(x) = log6 x. ● : The graph is compressed vertically. ● h = 0: There is no horizontal shift. ● k = –1: The graph is translated 1 unit down. Example 5

24 Graph Logarithmic Functions
Answer: Example 5

25 ● |a| = 4: The graph expands vertically.
Graph Logarithmic Functions ● |a| = 4: The graph expands vertically. ● h = –2: The graph is translated 2 units to the left. ● k = 0: There is no vertical shift. Example 5

26 Graph Logarithmic Functions
Answer: Example 5

27 A. B. C. D. A B C D Example 5

28 A. B. C. D. A B C D Example 5

29 Find Inverses of Exponential Functions
A. AIR PRESSURE At Earth’s surface, the air pressure is defined as 1 atmosphere. Pressure decreases by about 20% for each mile of altitude. Atmospheric pressure can be modeled by P = 0.8x, where x measures altitude in miles. Find the atmospheric pressure in atmospheres at an altitude of 8 miles. P = 0.8x Original equation = 0.88 Substitute 8 for x. = Use a calculator. Answer: atmosphere Example 6

30 x = 0.8P Replace x with P, replace P with x, and solve for P.
Find Inverses of Exponential Functions B. AIR PRESSURE At Earth’s surface, the air pressure is defined as 1 atmosphere. Pressure decreases by about 20% for each mile of altitude. Atmospheric pressure can be modeled by P = 0.8x, where x measures altitude in miles. Write an equation for the inverse of the function. P = 0.8x Original equation x = 0.8P Replace x with P, replace P with x, and solve for P. P = log0.8 x Definition of logarithm Answer: P = log0.8 x Example 6

31 A. AIR PRESSURE The air pressure of a car tire is 44 lbs/in2
A. AIR PRESSURE The air pressure of a car tire is 44 lbs/in2. The pressure decreases gradually by about 1% for each trip of 50 miles driven. The air pressure can be modeled by P = 44(0.99x), where x measures the number of 50-mile trips. Find the air pressure in pounds per square inch after driving 350 miles. A B C D A. 42 B. 41 C. 40 D. 39 Example 6

32 B. AIR PRESSURE The air pressure of a car tire is 44 lbs/in2
B. AIR PRESSURE The air pressure of a car tire is 44 lbs/in2. The pressure decreases gradually by about 1% for each trip of 50 miles driven. The air pressure can be modeled by P = 44(0.99x), where x measures the number of 50-mile trips. Write an equation for the inverse of the function. A B C D A. P = 44 log0.99 x B. P = log0.99 x C. D. Example 6

33 End of the Lesson

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