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6.6 The Natural Base, e Objectives: Evaluate natural exponential and natural logarithmic functions.

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Presentation on theme: "6.6 The Natural Base, e Objectives: Evaluate natural exponential and natural logarithmic functions."— Presentation transcript:

1 6.6 The Natural Base, e Objectives: Evaluate natural exponential and natural logarithmic functions.

2 The natural base, e, is used to estimate the ages of artifacts and to calculate interest that is compounded continuously.

3 The Natural Exponential Function The exponential function with base e, f(x) = e x is called the natural exponential function and e is called the natural base. The function e x is graphed. Notice that the domain is all real numbers The range is all positive numbers.

4 Ex 1. Evaluate f(x) = e x to the nearest thousandth for each value of x below. a. x= 2 e 2 = 7.389 b. x= ½ e 1/2 = 1.649 c. x = -1 e -1 =.368 d. x = 6 e 6 = 403.429 e. x = 1/3 e 1/3 = 1.396 f. x = -2 e -2 =.135

5 Continuous Compounding Formula

6 Ex 2: An investment of $1000 earns an annual interest rate of 7.6%. Compare the final amounts after 8 years for interest compounded quarterly and for interest compounded continuously. Quarterly A = P(1+ r/n) nt A = 1000(1+.076/4) 4*8 A = 1826.31 Continuously A = Pe rt A = 1000e.076 * 8 A = 1836.75

7 Ex 3: Find the value of $500 after 4 years invested at an annual interest rate of 9% compounded continuously. P = 500 t = 4 r =.09 A = 500e.36 = $716.66

8 The Natural Logarithmic Function The natural logarithmic function y = log e x, abbreviated y = In x, is the inverse of the natural exponential function, y = e x. The function y = In x is graphed along with y = e x. y=x y=e x y = Inx

9 Ex 4 Evaluate f(x) = ln x to the nearest thousandth for each value of x below. a.x = 2 ln 2 =.693 b. x = ½ In ½ = -.693 c. x = -1 In -1 = undefined d. x = 5 In 5 = 1.609 e. x= 0.85 In.85 = -.163 f. x = 1 In 1 = 0

10 The natural logarithmic function can be used to solve an equation of the form A = Pe rt for the exponent t in order to find the time it takes for an investment that is compounded continuously to reach a specific amount. **** In e = 1 ****

11 Ex 5 How long does it take for an investment to double at an annual interest rate of 8.5% compounded continuously?

12 Ex 5 How long does it take for an investment to triple at an annual interest rate of 7.2% compounded continuously?

13 ► Ex 7 Radiocarbon Dating Suppose that archaeologists find scrolls and claim that they are 2000 years old. Tests indicate that the scrolls contain 78% of their original carbon-14.

14

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16 Homework Pg. 397-398 #12-30 even #72-75

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