1. Functions-Part 5 (THIS IS IT!!)

2. Exponential Functions
Exponential Functions grow by common factors or multipliers over equal intervals. You can recognize exponential growth from a table. In the table below, the area of an aquatic weed is being measured yearly, and the weed has a growth factor of two. Notice, this means that the area covered by the weed doubles every year.

3. Exponential Functions

4. Map of Lake Victoria
Lake Victoria is about 1,000 miles north of Lake Kariba. Suppose a weed is found in the lake. Below is a map of Lake Victoria with a grid pattern drawn on it. One square of this grid is colored in to represent the area covered by the weed in one year. If the shaded square represents the area currently covered by the weed, how many squares would represent the area covered next year? A year later? A year after that? Show this using colored pencils.

5. Angela shows the growth of the area covered by the weed by coloring squares on the map. She uses a different color for each year. She remarks, “The number of squares I color for a certain year is exactly the same as the number already colored for all of the years before.” Based on the diagram above, is Angela correct? How many years would it take for the lake to be about half covered? How many years would it take for the lake to be totally covered?

6. Double Trouble!
Carol is studying a type of bacteria at school. Bacteria usually reproduce by cell division. During cell division, a bacterium splits in half and forms two new bacteria. Each bacterium then splits again, and so on. These bacteria are said to have a growth factor of two because their amount doubles after each time period. Starting with a single bacterium, calculate the number of existing bacteria after two hours and 40 minutes. Make a table like the one below to show your answer.

7. Are the bacteria growing linearly, quadratic, or neither. Explain
Are the bacteria growing linearly, quadratic, or neither? Explain. Extend the table to graph the differences in the number of bacteria over the course of two hours and 40 minutes.

8. Describe the graph.

9. Two thousand bacteria are growing in the corner of the kitchen sink
Two thousand bacteria are growing in the corner of the kitchen sink. You decide it is time to clean your house. You use a cleanser on the sink that is 99% effective in killing bacteria. How many bacteria survive your cleaning? If the number of bacteria doubles every 20 minutes, how long will it take before there are as many bacteria as before? This type of growth, where each new value is found by multiplying the previous number by a growth factor, is called exponential growth.

10. Exponential functions are written in the form y = abx , where a represents your initial value, b represents your growth factor, and x represents your ‘x’ value, or independent variable. Example: The table below shows values from an exponential function of the form f (x) = abx . Find the values of a and b, and express an equation that may be represented by this table.

11. Monica is shopping for a used car
Monica is shopping for a used car. She compares the prices and ages of midsize cars. She notices that adding two years to the age of a car lowers the price by 50%. Graph the value of a $10,000 car over a six-year period.
Is the graph linear? Why or why not?

12. Monica decides she does not want to keep a car for more than two years
Monica decides she does not want to keep a car for more than two years. She needs advice on whether to buy a new or used car. Write a few sentences explaining what you would recommend. Support your recommendation. Show that at this rate, the car never has a zero value. Is this realistic?

13. You have explored several situations in which amounts have decreased by a factor of 1/2. For example, the price of a car decreased by a factor of 1/2 every two years. Sometimes things get smaller by half and half again and half again and so on. When things change this way, the change is called exponential decay. When amounts decrease by a certain factor, the growth is not linear and not quadratic. You can check by finding the first and second differences. Exponential Decay functions have the same basic formula as exponential growth, but they have a growth factor that is between 0 and 1.