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Exponential Growth and Decay

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Presentation on theme: "Exponential Growth and Decay"— Presentation transcript:

1 Exponential Growth and Decay
Chapter 7 Differential Equations and Mathematical Modeling Section 7.4 Exponential Growth and Decay

2 Quick Review

3 Quick Review Solutions

4 What you’ll learn about
The differential equation dy/dt = ky and the law of exponential change Continuously compounded interest Radioactive decay Modeling growth in convenient bases Newton’s Law of Cooling … and why Understanding the differential equation gives us new insight into exponential growth and decay.

5 Separable Differential Equation

6 Example Solving by Separation of Variables

7 The Law of Exponential Change

8 Continuously Compounded Interest

9 Example Compounding Interest Continuously

10 Example Finding Half-Life

11 Half-life

12 Newton’s Law of Cooling

13 Example Using Newton’s Law of Cooling
A temperature probe is removed from a cup of coffee and placed in water that has a temperature of Ts = 4.5C. Temperature readings T, as recorded in the table below, are taken after 2 sec, 5 sec, and every 5 sec thereafter. Estimate the coffee’s temperature at the time the temperature probe was removed. the time when the temperature probe reading will be 8C.

14 Example Using Newton’s Law of Cooling

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