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7.1 E XPONENTIAL F UNCTIONS, G ROWTH, AND D ECAY Warm Up Evaluate. 1. 100(1.08) 20 2. 100(1 – 0.02) 10 3. 100(1 + 0.08) –10 ≈ 466.1 ≈ 81.71 ≈ 46.32 Write.

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Presentation on theme: "7.1 E XPONENTIAL F UNCTIONS, G ROWTH, AND D ECAY Warm Up Evaluate. 1. 100(1.08) 20 2. 100(1 – 0.02) 10 3. 100(1 + 0.08) –10 ≈ 466.1 ≈ 81.71 ≈ 46.32 Write."— Presentation transcript:

1 7.1 E XPONENTIAL F UNCTIONS, G ROWTH, AND D ECAY Warm Up Evaluate. 1. 100(1.08) 20 2. 100(1 – 0.02) 10 3. 100(1 + 0.08) –10 ≈ 466.1 ≈ 81.71 ≈ 46.32 Write and evaluate exponential expressions to model growth and decay situations. Objective exponential function base asymptote exponential growth exponential decay Vocabulary Negative exponents indicate a reciprocal. For example: Remember!

2 Growth that doubles every year can be modeled by using a function with a variable as an exponent. This function is known as an exponential function. The graph of the parent function f ( x ) = 2 x is shown. Why not f ( x ) = 1 x as the parent function? Domain: Range:

3 Look at the graph. What questions come to mind?

4 Tell whether the function shows growth or decay. Then graph. Example 1A: Graphing Exponential Functions Step 1 Find the value of the base. A function of the form f ( x ) = ab x, with a > 0 and b > 1, is an exponential growth function, which increases as x increases. When 0 < b < 1, the function is called an exponential decay function, which decreases as x increases. Step 2 Graph the function by using a table of values. x024681012 f(x) Highlight your point on the graph

5 Tell whether the function p ( x ) = 5(1.2 x ) shows growth or decay. Then graph. Step 1 Find the value of the base. Check It Out! Example 1 Step 2 Graph the function by using a table of values. x–12–8–404810 f(x) Highlight your point on the graph

6 You can model growth or decay by a constant percent increase or decrease with the following formula: In the formula, the base of the exponential expression, 1 + r, is called the growth factor. Similarly, 1 – r is the decay factor. Questions:

7 Clara invests $5000 in an account that pays 6.25% interest per year. After how many years will her investment be worth $10,000? Example 2: Economics Application Step 1 Write a function to model the growth in value of her investment. f ( t ) = a (1 + r ) t Exponential growth function. We will learn algebra techniques for solving. Until then we use the graph or table to solve the equation

8 A city population, which was initially 15,500, has been dropping 3% a year. Write an exponential function and graph the function. Use the graph to predict when the population will drop below 8000. Example 3: Depreciation Application f ( t ) = a (1 – r ) t Exponential decay function. 10,000 150 0 0

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