Presentation is loading. Please wait.

Presentation is loading. Please wait.

Splash Screen.

Published byPaula Amberlynn Todd Modified over 6 years ago

Similar presentations

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

1 Splash Screen

2 Five-Minute Check (over Lesson 3-2) Then/Now
Key Concept: Properties of Logarithms Example 1: Use the Properties of Logarithms Example 2: Simplify Logarithms Example 3: Expand Logarithmic Expressions Example 4: Condense Logarithmic Expressions Key Concept: Change of Base Formula Example 5: Use the Change of Base Formula Example 6: Use the Change of Base Formula Lesson Menu

3 Evaluate A. B. C. 1 D. 2 5–Minute Check 1

4 Evaluate A. B. C. 1 D. 2 5–Minute Check 1

5 Evaluate log5 5. A. –1 B. 0 C. 1 D. 5 5–Minute Check 2

6 Evaluate log5 5. A. –1 B. 0 C. 1 D. 5 5–Minute Check 2

7 Evaluate 10log 2. A. 1 B. 2 C. 5 D. 10 5–Minute Check 3

8 Evaluate 10log 2. A. 1 B. 2 C. 5 D. 10 5–Minute Check 3

9 Evaluate ln(–3). A. about –1.1 B. about 0.48 C. about 1.1 D. undefined
5–Minute Check 4

10 Evaluate ln(–3). A. about –1.1 B. about 0.48 C. about 1.1 D. undefined
5–Minute Check 4

11 A. Sketch the graph of f (x) = log3 x.
B. C. D. 5–Minute Check 5

12 A. Sketch the graph of f (x) = log3 x.
B. C. D. 5–Minute Check 5

13 B. Analyze the graph of f (x) = log3 x
B. Analyze the graph of f (x) = log3 x. Describe its domain, range, intercepts, asymptotes, end behavior, and where the function is increasing or decreasing. A. D: (–∞, ∞); R: (0, ∞); x-intercept: 1; Asymptote: x-axis; Increasing (–∞, ∞) ; B. D: (–∞, ∞); R: (0, ∞); x-intercept: 1; Asymptote: x-axis; Decreasing (–∞, ∞); C. D: (0, ∞); R: (–∞, ∞); x-intercept: 1; Asymptote: y-axis; Increasing (0, ∞); D. D: (0, ∞); R: (–∞, ∞); x-intercept: 1; Asymptote: y-axis; Decreasing (–∞, ∞); 5–Minute Check 5

14 B. Analyze the graph of f (x) = log3 x
B. Analyze the graph of f (x) = log3 x. Describe its domain, range, intercepts, asymptotes, end behavior, and where the function is increasing or decreasing. A. D: (–∞, ∞); R: (0, ∞); x-intercept: 1; Asymptote: x-axis; Increasing (–∞, ∞) ; B. D: (–∞, ∞); R: (0, ∞); x-intercept: 1; Asymptote: x-axis; Decreasing (–∞, ∞); C. D: (0, ∞); R: (–∞, ∞); x-intercept: 1; Asymptote: y-axis; Increasing (0, ∞); D. D: (0, ∞); R: (–∞, ∞); x-intercept: 1; Asymptote: y-axis; Decreasing (–∞, ∞); 5–Minute Check 5

15 Evaluate eIn x. A. x B. ln e C. e D. ex 5–Minute Check 6

16 Evaluate eIn x. A. x B. ln e C. e D. ex 5–Minute Check 6

17 Apply properties of logarithms. Apply the Change of Base Formula.
You evaluated logarithmic expressions with different bases. (Lesson 3–2) Apply properties of logarithms. Apply the Change of Base Formula. Then/Now

18 Key Concept 1

19 A. Express log 96 in terms of log 2 and log 3.
Use the Properties of Logarithms A. Express log 96 in terms of log 2 and log 3. log 96 = log (25 ● 3) 96 = 25 ● 3 = log 25 + log 3 Product Property = 5 log 2 + log 3 Power Property Answer: Example 1

20 A. Express log 96 in terms of log 2 and log 3.
Use the Properties of Logarithms A. Express log 96 in terms of log 2 and log 3. log 96 = log (25 ● 3) 96 = 25 ● 3 = log 25 + log 3 Product Property = 5 log 2 + log 3 Power Property Answer: 5 log 2 + log 3 Example 1

21 B. Express in terms of log 2 and log 3.
Use the Properties of Logarithms B. Express in terms of log 2 and log 3. = log 32 – log 9 Quotient Property = log 25 – log32 25 = 32 and 32 = 9 = 5 log 2 – 2 log 3 Power Property Answer: Example 1

22 B. Express in terms of log 2 and log 3.
Use the Properties of Logarithms B. Express in terms of log 2 and log 3. = log 32 – log 9 Quotient Property = log 25 – log32 25 = 32 and 32 = 9 = 5 log 2 – 2 log 3 Power Property Answer: 5 log 2 – 2 log 3 Example 1

23 Express ln in terms of ln 3 and ln 5.
A. 3 ln ln 3 B. ln 53 – ln 33 C. 3 ln 5 – 3 ln 3 D. 3 ln 3 – 3 ln 5 Example 1

24 Express ln in terms of ln 3 and ln 5.
A. 3 ln ln 3 B. ln 53 – ln 33 C. 3 ln 5 – 3 ln 3 D. 3 ln 3 – 3 ln 5 Example 1

25 Rewrite using rational exponents.
Simplify Logarithms A. Evaluate Rewrite using rational exponents. 25 = 32 Power Property of Exponents Power Property of Logarithms logx x = 1 Answer: Example 2

26 Rewrite using rational exponents.
Simplify Logarithms A. Evaluate Rewrite using rational exponents. 25 = 32 Power Property of Exponents Power Property of Logarithms logx x = 1 Answer: Example 2

27 3 ln e4 – 2 ln e2 = 4(3 ln e) – 2(2 ln e) Power Property of Logarithms
Simplify Logarithms B. Evaluate 3 ln e4 – 2 ln e2. 3 ln e4 – 2 ln e2 = 4(3 ln e) – 2(2 ln e) Power Property of Logarithms = 12 ln e – 4 ln e Multiply. = 12(1) – 4(1) or 8 ln e = 1 Answer: Example 2

28 3 ln e4 – 2 ln e2 = 4(3 ln e) – 2(2 ln e) Power Property of Logarithms
Simplify Logarithms B. Evaluate 3 ln e4 – 2 ln e2. 3 ln e4 – 2 ln e2 = 4(3 ln e) – 2(2 ln e) Power Property of Logarithms = 12 ln e – 4 ln e Multiply. = 12(1) – 4(1) or 8 ln e = 1 Answer: 8 Example 2

29 Evaluate A. 4 B. C. D. Example 2

30 Evaluate A. 4 B. C. D. Example 2

31 The expression is the logarithm of the product of 4, m3, and n5.
Expand Logarithmic Expressions A. Expand ln 4m3n5. The expression is the logarithm of the product of 4, m3, and n5. ln 4m3n5 = ln 4 + ln m3 + ln n5 Product Property = ln ln m + 5 ln n Power Property Answer: Example 3

32 The expression is the logarithm of the product of 4, m3, and n5.
Expand Logarithmic Expressions A. Expand ln 4m3n5. The expression is the logarithm of the product of 4, m3, and n5. ln 4m3n5 = ln 4 + ln m3 + ln n5 Product Property = ln ln m + 5 ln n Power Property Answer: ln ln m + 5 ln n Example 3

33 The expression is the logarithm of the quotient of 2x – 3 and
Expand Logarithmic Expressions B. Expand The expression is the logarithm of the quotient of 2x – 3 and Quotient Property Product Property Rewrite using rational exponents. Power Property Example 3

34 Expand Logarithmic Expressions
Answer: Example 3

35 Expand Logarithmic Expressions
Answer: Example 3

36 Expand . A. 3 ln x – ln (x – 7) B. 3 ln x + ln (x – 7)
C. ln (x – 7) – 3 ln x D. ln x3 – ln (x – 7) Example 3

37 Expand . A. 3 ln x – ln (x – 7) B. 3 ln x + ln (x – 7)
C. ln (x – 7) – 3 ln x D. ln x3 – ln (x – 7) Example 3

38 A. Condense . Power Property Quotient Property Answer:
Condense Logarithmic Expressions A. Condense Power Property Quotient Property Answer: Example 4

39 A. Condense . Power Property Quotient Property Answer:
Condense Logarithmic Expressions A. Condense Power Property Quotient Property Answer: Example 4

40 5 ln (x + 1) + 6 ln x = ln (x + 1)5 + ln x6 Power Property
Condense Logarithmic Expressions B. Condense 5 ln (x + 1) + 6 ln x. 5 ln (x + 1) + 6 ln x = ln (x + 1)5 + ln x6 Power Property = ln x6(x + 1)5 Product Property Answer: Example 4

41 5 ln (x + 1) + 6 ln x = ln (x + 1)5 + ln x6 Power Property
Condense Logarithmic Expressions B. Condense 5 ln (x + 1) + 6 ln x. 5 ln (x + 1) + 6 ln x = ln (x + 1)5 + ln x6 Power Property = ln x6(x + 1)5 Product Property Answer: ln x6(x + 1)5 Example 4

42 Condense – ln x2 + ln (x + 3) + ln x.
A. In x(x + 3) B. C. D. Example 4

43 Condense – ln x2 + ln (x + 3) + ln x.
A. In x(x + 3) B. C. D. Example 4

44 Key Concept 2

45 log 6 4 = Change of Base Formula
Use the Change of Base Formula A. Evaluate log 6 4. log 6 4 = Change of Base Formula ≈ 0.77 Use a calculator. Answer: Example 5

46 log 6 4 = Change of Base Formula
Use the Change of Base Formula A. Evaluate log 6 4. log 6 4 = Change of Base Formula ≈ 0.77 Use a calculator. Answer: 0.77 Example 5

47 = Change of Base Formula
Use the Change of Base Formula B. Evaluate = Change of Base Formula ≈ –1.89 Use a calculator. Answer: Example 5

48 = Change of Base Formula
Use the Change of Base Formula B. Evaluate = Change of Base Formula ≈ –1.89 Use a calculator. Answer: –1.89 Example 5

49 Evaluate A. –2 B. –0.5 C. 0.5 D. 2 Example 5

50 Evaluate A. –2 B. –0.5 C. 0.5 D. 2 Example 5

51 Use the Change of Base Formula
ECOLOGY Diversity in a certain ecological environment containing two different species is modeled by the function , where N1 and N2 are the numbers of each type of species found in the sample S = ( N1 + N2 ). Find the measure of diversity for environments that find 25 and 50 species in the samples. Example 6

52 Use the Change of Base Formula
Let N1 = 25, N2 = 50, and S = 75. Substitute for the values of N1, N2, and S and solve. D Original equation N1 = 25, N2 = 50, and S = 75 Change of Base Formula Example 6

53 ≈ 0.918 Use a calculator. Answer: Use the Change of Base Formula
Example 6

54 ≈ 0.918 Use a calculator. Answer: 0.918 Use the Change of Base Formula
Example 6

55 Use the Change of Base Formula
B. ECOLOGY Diversity in a certain ecological environment containing two different species is modeled by the function , where N1 and N2 are the numbers of each type of species found in the sample S = ( N1 + N2 ). Find the measure of diversity for environments that find 10 and 60 species in the samples. Example 6

56 Use the Change of Base Formula
Let N1 = 10, N2 = 60, and S = 70. Substitute for the values of N1, N2, and S and solve. D Original equation N1 = 10, N2 = 60, and S = 70 Change of Base Formula Example 6

57 ≈ 0.592 Use a calculator. Answer: Use the Change of Base Formula
Example 6

58 ≈ 0.592 Use a calculator. Answer: 0.592 Use the Change of Base Formula
Example 6

59 PHOTOGRAPHY In photography, exposure is the amount of light allowed to strike the film. Exposure can be adjusted by the number of stops used to take a photograph. The change in the number of stops n needed is related to the change in exposure c by n = log2c. How many stops would a photographer use to get exposure? A. –2 stops B. 2 stops C. –0.5 D. 0.5 Example 6

60 PHOTOGRAPHY In photography, exposure is the amount of light allowed to strike the film. Exposure can be adjusted by the number of stops used to take a photograph. The change in the number of stops n needed is related to the change in exposure c by n = log2c. How many stops would a photographer use to get exposure? A. –2 stops B. 2 stops C. –0.5 D. 0.5 Example 6

61 Homework - # odd, Logarithms Functions Task Cards w/scan Mid Chapter Quiz

62 End of the Lesson

Download ppt "Splash Screen."

Similar presentations

Lesson Menu. Over Lesson 7–2 5-Minute Check 1 Splash Screen Rational Exponents Lesson 7-3.

Lesson Menu. Over Lesson 7–2 5-Minute Check 1 Splash Screen Rational Exponents Lesson 7-3.
Splash Screen. Lesson Menu Five-Minute Check (over Lesson 3-2) Then/Now Key Concept:Properties of Logarithms Example 1:Use the Properties of Logarithms.

Splash Screen. Lesson Menu Five-Minute Check (over Lesson 3-2) Then/Now Key Concept:Properties of Logarithms Example 1:Use the Properties of Logarithms.
Review Homework (3.1 Graphing exponential functions)

Review Homework (3.1 Graphing exponential functions)
Logarithm Jeopardy 100 300 500 300 500 100 300 500 100 300 500 100 300 500 The number e Expand/ Condense LogarithmsSolving More Solving FINAL.

Logarithm Jeopardy The number e Expand/ Condense LogarithmsSolving More Solving FINAL.
Sec 4.3 Laws of Logarithms Objective:

Sec 4.3 Laws of Logarithms Objective:
Section 5.3 Properties of Logarithms Advanced Algebra.

Section 5.3 Properties of Logarithms Advanced Algebra.
LOGS EQUAL THE The inverse of an exponential function is a logarithmic function. Logarithmic Function x = log a y read: “x equals log base a of y”

LOGS EQUAL THE The inverse of an exponential function is a logarithmic function. Logarithmic Function x = log a y read: “x equals log base a of y”
Exponential and Logarithmic Equations

Exponential and Logarithmic Equations
7-5 Logarithmic & Exponential Equations

7-5 Logarithmic & Exponential Equations
Objectives Solve exponential and logarithmic equations and equalities.

Objectives Solve exponential and logarithmic equations and equalities.
Section 3.3a and b!!! Homework: p odd, odd

Section 3.3a and b!!! Homework: p odd, odd
Splash Screen. Lesson Menu Five-Minute Check (over Lesson 8–4) Then/Now Key Concept: Product Property of Logarithms Example 1:Use the Product Property.

Splash Screen. Lesson Menu Five-Minute Check (over Lesson 8–4) Then/Now Key Concept: Product Property of Logarithms Example 1:Use the Product Property.
Laws of Logarithms 5.6. Laws of Logarithms O If M and N are positive real numbers and b is a positive number such that b  1, then O 1. log b MN = log.

Laws of Logarithms 5.6. Laws of Logarithms O If M and N are positive real numbers and b is a positive number such that b  1, then O 1. log b MN = log.
Chapter 3 Exponential and Logarithmic Functions 1.

Chapter 3 Exponential and Logarithmic Functions 1.
1. Evaluate the expressions: log 3 27log 2 ½ log 25 5 2. Sketch the graph of f(x) = 4 x and tell the domain, range, intercept, asymptote, and end behavior.

1. Evaluate the expressions: log 3 27log 2 ½ log Sketch the graph of f(x) = 4 x and tell the domain, range, intercept, asymptote, and end behavior.
Properties of Logarithms Section 8.5. WHAT YOU WILL LEARN: 1.How to use the properties of logarithms to simplify and evaluate expressions.

Properties of Logarithms Section 8.5. WHAT YOU WILL LEARN: 1.How to use the properties of logarithms to simplify and evaluate expressions.
5.2 Logarithmic Functions & Their Graphs Goals— Recognize and evaluate logarithmic functions with base a Graph Logarithmic functions Recognize, evaluate,

5.2 Logarithmic Functions & Their Graphs Goals— Recognize and evaluate logarithmic functions with base a Graph Logarithmic functions Recognize, evaluate,
5.4 Properties of Logarithms 3/1/2013

5.4 Properties of Logarithms 3/1/2013
The inverse function of an Exponential functions is a log function. The inverse function of an Exponential functions is a log function. Domain: Range:

The inverse function of an Exponential functions is a log function. The inverse function of an Exponential functions is a log function. Domain: Range:
Splash Screen. Lesson Menu Five-Minute Check (over Lesson 3-2) Then/Now Key Concept:Properties of Logarithms Example 1:Use the Properties of Logarithms.

Splash Screen. Lesson Menu Five-Minute Check (over Lesson 3-2) Then/Now Key Concept:Properties of Logarithms Example 1:Use the Properties of Logarithms.

Similar presentations

Ads by Google