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The Biology and Math Interface Group Presents…. Our Teachable Tidbit Topic: Exponential growth and decay with applications to biology Learning Outcomes.

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Presentation on theme: "The Biology and Math Interface Group Presents…. Our Teachable Tidbit Topic: Exponential growth and decay with applications to biology Learning Outcomes."— Presentation transcript:

1 The Biology and Math Interface Group Presents…

2 Our Teachable Tidbit Topic: Exponential growth and decay with applications to biology Learning Outcomes From Tidbit: The student should be able to: Fit an exponential model to data Make predictions using an exponential model Interpret components of a exponential model Do sensitivity analysis Read, understand, and know how to graph an exponential function

3 Overall Goals for Unit: Students will appreciate the importance of mathematics in modeling biological processes Skill Level of Students: This tidbit can be used in a college calculus course or an introductory biology class What we assumed: Students have little to no prior experience with college level biology, but students have been exposed to logarithms and exponentials What the instructors and students need to know

4 Content Presented Prior to Tidbit

5 Video http://contagionmovie.warnerbros.com/index.h tml#/home

6 Activity Introduction... If we let P define the number of people infected lets look at a way we can model the spread of infection starting with Gwyneth Paltrow… Each group should have two cups, one with pennies and one without. We will be simulating a model of exponential growth, that is the spread of disease, by flipping the pennies and adding a penny for every head.* Begin with one penny, the initial infected individual. Your group will need a scribe, someone to flip pennies, and someone to add pennies. *Exponential decay can also be modeled using pennies just begin with all pennies instead of one and remove a penny for every heads or tails.

7 In the year 1995 the population equals 75 if the growth rate is 0.65, calculate the population in the year 2011.

8 Suppose we have two diseases spreading through two different populations. Disease A’s propagation is identical to disease B, except disease B has a k value twice as big as disease A. How is the population of people affected by disease A compared to disease B? A. Population of A is twice the population of B B. Population of B is twice the population of A C. Both populations are the same D. Not enough information given to determine populations E. None of the above

9 Find the equation for the exponential population curve above.

10 Homework and Extension Ideas Example of an isomorphic homework assignment Extension ideas?????

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