Presentation is loading. Please wait.

Presentation is loading. Please wait.

Over Lesson 3-3 5–Minute Check 3 Expand. A. B. C. D.

Published byJasper Nicholas Morrison Modified over 8 years ago

Similar presentations

Presentation on theme: "Over Lesson 3-3 5–Minute Check 3 Expand. A. B. C. D."— Presentation transcript:

1 Over Lesson 3-3 5–Minute Check 3 Expand. A. B. C. D.

2 Over Lesson 3-3 5–Minute Check 3 Expand. A. B. C. D.

3 Then/Now You applied the inverse properties of exponents and logarithms to simplify expressions. (Lesson 3-2) Apply the One-to-One Property of Exponential Functions to solve equations. Apply the One-to-One Property of Logarithmic Functions to solve equations.

4 Key Concept 1

5 Example 1 Solve Exponential Equations Using One-to- One Property A. Solve 4 x + 2 = 16 x – 3. 4 x + 2 = 16 x – 3 Original equation 4 x + 2 = (4 2 ) x – 3 4 2 = 16 4 x + 2 = 4 2x – 6 Power of a Power x + 2= 2x – 6One-to-One Property 2= x – 6Subtract x from each side. 8= xAdd 6 to each side. Answer: 8

6 Example 1 Solve Exponential Equations Using One-to- One Property B. Solve. Original equation Power of a Power

7 Example 1 Solve Exponential Equations Using One-to- One Property Answer: One-to-One Property.

8 Example 1 A.1 B. C.2 D.–2 Solve 25 x + 2 = 5 4x.

9 Example 1 A.1 B. C.2 D.–2 Solve 25 x + 2 = 5 4x.

10 Example 2 Solve Logarithmic Equations Using One-to- One Property A. Solve 2 ln x = 18. Round to the nearest hundredth. Method 1 Use exponentiation. 2 ln x= 18Original equation ln x= 9Divide each side by 2. e ln x = e 9 Exponentiate each side. x= e 9 Inverse Property x≈ 8103.08Use a calculator.

11 Example 2 Solve Logarithmic Equations Using One-to- One Property Answer: 8103.08 Method 2 Write in exponential form. 2 ln x= 18Original equation ln x= 9Divide each side by 2. x= e 9 Write in exponential form. x≈ 8103.08Use a calculator.

12 Example 2 Solve Logarithmic Equations Using One-to- One Property B. Solve 7 – 3 log 10x = 13. Round to the nearest hundredth. 7 – 3 log 10x= 13Original equation –3 log 10x= 6Subtract 7 from each side. log 10x= –2Divide each side by –3. 10 –2 =10xWrite in exponential form. 10 –3 = xDivide each side by 10. = x = 10 –3. Answer:

13 Example 2 Solve Logarithmic Equations Using One-to- One Property C. Solve log 5 x 4 = 20. Round to the nearest hundredth. log 5 x 4 = 20Original equation 4 log 5 x= 20Power Property log 5 x= 5Divide each side by 4. x= 5 5 Write in exponential form x= 3125 Simplify. Answer: 3125

14 Example 2 Solve 2 log 2 x 3 = 18. A.81 B.27 C.9 D.8

15 Example 2 Solve 2 log 2 x 3 = 18. A.81 B.27 C.9 D.8

16 Key Concept 2

17 Example 3 Solve Exponential Equations Using One-to- One Property A. Solve log 2 5 = log 2 10 – log 2 (x – 4). log 2 5= log 2 10 – log 2 (x – 4)Original equation log 2 5=Quotient Property 5=One-to-One Property 5x – 20= 10Multiply each side by x – 4.5 5x= 30Add 20 to each side. x= 6Divide each side by 5. Answer: 6

18 Example 3 Solve Exponential Equations Using One-to- One Property B. Solve log 5 (x 2 + x) = log 5 20. log 5 (x 2 + x) = log 5 20Original equation x 2 + x= 20One-to-One Property x 2 + x – 20= 0Subtract 20 from each side. (x – 4)(x + 5)= 0Factor x 2 + x – 20 into linear factors. x= –5 or 4Solve for x. Check this solution. Answer: –5, 4

19 Example 3 Solve log 3 15 = log 3 x + log 3 (x – 2). A.5 B.–3 C.–3, 5 D.no solution

20 Example 3 Solve log 3 15 = log 3 x + log 3 (x – 2). A.5 B.–3 C.–3, 5 D.no solution

21 Example 4 Solve Exponential Equations A. Solve 3 x = 7. Round to the nearest hundredth. 3 x = 7Original equation log 3 x = log 7Take the common logarithm of each side. x log 3= log 7Power Property x= or about 1.77Divide each side by log 3 and use a calculator. Answer:1.77

22 Example 4 Solve Exponential Equations B. Solve e 2x + 1 = 8. Round to the nearest hundredth. e 2x + 1 = 8Original equation ln e 2x + 1 = ln 8Take the natural logarithm of each side. 2x + 1= ln 8Inverse Property x= or about 0.54Solve for x and use a calculator. Answer:0.54

23 Example 4 Solve 4 x = 9. Round to the nearest hundredth. A.0.63 B.1.58 C.2.25 D.0.44

24 Example 4 Solve 4 x = 9. Round to the nearest hundredth. A.0.63 B.1.58 C.2.25 D.0.44

25 Example 5 Solve in Logarithmic Terms Solve 3 6x – 3 = 2 4 – 4x. Round to the nearest hundredth. 3 6x – 3 = 2 4 – 4x Original equation ln 3 6x – 3 = ln 2 4 – 4x Take the natural logarithm of each side. (6x – 3) ln 3= (4 – 4x) ln 2Power Property 6x ln 3 – 3 ln3= 4 ln 2 – 4x ln 2Distributive Property 6x ln 3 + 4x ln 2= 4 ln 2 + 3 ln3Isolate the variable on the left side of the equation. x(6 ln 3 + 4 ln 2)= 4 ln 2 + 3 ln3Distributive Property

26 Example 5 Solve in Logarithmic Terms x(ln 3 6 + ln 2 4 )= ln 2 4 + ln 3 3 Power Property x ln [3 6 (2 4 )]= ln [2 4 (3 3 )]Product Property x ln 11,664= ln 4323 6 (2 4 ) = 11,664 and 2 4 (3 3 ) = 432 x= Divide each side by ln 11,664. Answer:0.65 x≈ 0.65Use a calculator.

27 Example 5 Solve 4 x + 2 = 3 2 – x. Round to the nearest hundredth. A.1.29 B.1.08 C.0.68 D.–0.23

28 Example 5 Solve 4 x + 2 = 3 2 – x. Round to the nearest hundredth. A.1.29 B.1.08 C.0.68 D.–0.23

29 Example 6 Solve e 2x – e x – 2 = 0. e 2x – e x – 2= 0Original equation u 2 – u – 2= 0Write in quadratic form by letting u = e x. (u – 2)(u + 1)= 0Factor. u= 2 or u= –1Zero Product Property e x = 2e x = –1Replace u with e x. Solve Exponential Equations in Quadratic Form

30 Example 6 Solve Exponential Equations in Quadratic Form ln e x = ln 2ln e x = ln (–1)Take the natural logarithm of each side. x= ln 2 x= ln (–1) Inverse Property or about 0.69 The only solution is x = ln 2 because ln (–1) is extraneous. Answer: 0.69

31 Example 6 Solve Exponential Equations in Quadratic Form Check e 2x – e x – 2= 0Original equation e 2(ln 2) – e ln 2 – 2= 0Replace x with ln 2. e ln 2 2 – e ln 2 – 2= 0Power Property 2 2 – 2 – 2= 0Inverse Property 0= 0Simplify.

32 Example 6 Solve e 2x + e x – 12 = 0. A.ln 3 B.ln 3, ln 4 C.ln 4 D.ln 3, ln (–4)

33 Example 6 Solve e 2x + e x – 12 = 0. A.ln 3 B.ln 3, ln 4 C.ln 4 D.ln 3, ln (–4)

34 Example 7 Solve Logarithmic Equations Solve log x + log (x – 3) = log 28. log x + log (x – 3)= log 28Original equation log x(x – 3)= log 28Product Property log (x 2 – 3x)= log 28Simplify. x 2 – 3x= 28One-to-One Property x 2 – 3x – 28= 0Subtract 28 from each side. (x – 7)(x + 4)= 0Factor. x = 7 or x= – 4Zero Product Property

35 Example 7 Solve Logarithmic Equations Answer: 7 The only solution is x = 7 because –4 is an extraneous solution.

36 Example 7 Solve ln x + ln (5 – x) = ln 6. A.2 B.3 C.2, 3 D.–2, –3

37 Example 7 Solve ln x + ln (5 – x) = ln 6. A.2 B.3 C.2, 3 D.–2, –3

38 Example 8 Solve log (3x – 4) = 1 + log (2x + 3). log (3x – 4)= 1 + log (2x + 3)Original Equation Check for Extraneous Solutions log (3x – 4) – log (2x + 3)= 1Subtract log (2x + 3) from each side. = 1Quotient Property = log 10 1 Inverse Property = log 1010 1 = 10

39 Example 8 Check for Extraneous Solutions = 10One-to-One Property 3x – 4= 10(2x + 3)Multiply each side by 2x + 3. 3x – 4= 20x + 30Distributive Property –17x= 34Subtract 20x and add 4 to each side. x= –2Divide each side by –17.

40 Example 8 Answer:no solution Check for Extraneous Solutions Check log (3x – 4)= 1 + log (2x + 3) log (3(–2) – 4)= 1 + log (2(–2) + 3) log (–10)= 1 = log (–1) Since neither log (–10) nor log (–1) is defined, x = –2 is an extraneous solution.

41 Example 8 Solve log 2 (x – 6) = 3 + log 2 (x – 1). A. B.no solution C. D.8

42 Example 8 Solve log 2 (x – 6) = 3 + log 2 (x – 1). A. B.no solution C. D.8

43 Example 9 Model Exponential Growth A. CELL PHONES This table shows the number of cell phones a new store sold in March and August of the same year. If the number of phones sold per month is increasing at an exponential rate, identify the continuous rate of growth. Then write the exponential equation to model this situation.

44 Example 9 Model Exponential Growth Let N(t) represent the number of cell phones sold at the end of t months and assume continuous growth. Then the initial number N 0 is 88 cell phones sold and the number of cell phones sold N after a time of 5 months, the number of months from March to August, is 177. Use this information to find the continuous growth rate k. N (t)= N 0 e kt Exponential Growth Formula 177= 88e 5k N(5) = 177, N 0 = 88, and t = 5 = e 5k Divide each side by 88.

45 Example 9 Answer:13.98%; N (t) = 88e 0.1398t Model Exponential Growth = ln e 5k Take the natural logarithm of each side. = 5kInverse Property = kDivide each side by 5 0.1398≈ kUse a calculator.

46 Example 9 Model Exponential Growth B. CELL PHONES This table shows the number of cell phones a new store sold in March and August of the same year. Use your model to predict the number of months it will take for the store to sell 500 phones in one month.

47 Example 9 Model Exponential Growth The number of cell phones sold is increasing at a continuous rate of approximately 13.98% per month. Therefore, an equation modeling this situation is N (t) = 88e 0.1398t. N (t)= 88e 0.1398t Exponential Growth Model 500= 88e 0.1398t N(t) = 500 = ln e 0.1398t Take the natural logarithm of each side. = e 0.1398t Divide each side by 88.

48 Example 9 Answer:12.4 months Model Exponential Growth = 0.1398tInverse Property = tDivide each side by 0.1398. 12.4≈ tUse a calculator. According to this model, the store will sell 500 phones in a month in about 12.4 months.

49 Example 9 TECHNOLOGY SERVICE The table below shows the number of service requests received by the TECH SQUAD in the months of May and July in the same year. If the number of service requests is increasing at an continuous exponential rate, identify the rate of growth. A.21.77% B.0.2177% C.9.45% D.0.0945%

50 Example 9 TECHNOLOGY SERVICE The table below shows the number of service requests received by the TECH SQUAD in the months of May and July in the same year. If the number of service requests is increasing at an continuous exponential rate, identify the rate of growth. A.21.77% B.0.2177% C.9.45% D.0.0945%

Download ppt "Over Lesson 3-3 5–Minute Check 3 Expand. A. B. C. D."

Similar presentations

Warm Up Solve. 1. log16x = 2. logx1.331 = log10,000 = x 1.1 4

Warm Up Solve. 1. log16x = 2. logx1.331 = log10,000 = x 1.1 4
Essential Question: What are some of the similarities and differences between natural and common logarithms.

Essential Question: What are some of the similarities and differences between natural and common logarithms.
Properties of Logarithms

Properties of Logarithms
EXAMPLE 1 Solve quadratic equations Solve the equation. a. 2x 2 = 8 SOLUTION a. 2x 2 = 8 Write original equation. x 2 = 4 Divide each side by 2. x = ±

EXAMPLE 1 Solve quadratic equations Solve the equation. a. 2x 2 = 8 SOLUTION a. 2x 2 = 8 Write original equation. x 2 = 4 Divide each side by 2. x = ±
Solve an equation with variables on both sides

Solve an equation with variables on both sides
Table of Contents Solving Logarithmic Equations A logarithmic equation is an equation with an expression that contains the log of a variable expression.

Table of Contents Solving Logarithmic Equations A logarithmic equation is an equation with an expression that contains the log of a variable expression.
9.1 – Students will be able to evaluate square roots.Students will be able to solve a quadratic equation by finding the square root. 1. 3x +(– 6x) Warm-Up.

9.1 – Students will be able to evaluate square roots.Students will be able to solve a quadratic equation by finding the square root. 1. 3x +(– 6x) Warm-Up.
Essential Question: Give examples of equations that can be solved using the properties of exponents and logarithms.

Essential Question: Give examples of equations that can be solved using the properties of exponents and logarithms.
Standardized Test Practice

Standardized Test Practice
Evaluating logarithms

Evaluating logarithms
5.4 Exponential and Logarithmic Equations Essential Questions: How do we solve exponential and logarithmic equations?

5.4 Exponential and Logarithmic Equations Essential Questions: How do we solve exponential and logarithmic equations?
Exponential and Logarithmic Equations

Exponential and Logarithmic Equations
Warm - up.

Warm - up.
and Logarithmic Equations

and Logarithmic Equations
7-5 Logarithmic & Exponential Equations

7-5 Logarithmic & Exponential Equations
7.6 – Solve Exponential and Log Equations

7.6 – Solve Exponential and Log Equations
Section 6.4 Exponential and Logarithmic Equations

Section 6.4 Exponential and Logarithmic Equations
Objectives Solve exponential and logarithmic equations and equalities.

Objectives Solve exponential and logarithmic equations and equalities.
Table of Contents Solving Exponential Equations An exponential equation is an equation with a variable as part of an exponent. The following examples will.

Table of Contents Solving Exponential Equations An exponential equation is an equation with a variable as part of an exponent. The following examples will.
Objectives Solve exponential and logarithmic equations and equalities.

Objectives Solve exponential and logarithmic equations and equalities.

Similar presentations

Ads by Google