I intend today's Warm-up to take about 10 minutes to complete. The goal is for me to introduce the lesson. I expect my students will approach the task by building on the previous day's lesson. The previous lesson was an introduction to an exponential growth function. This lesson is an introduction to an exponential decay problem.
During the warm up, students will attempt to identify patterns by inspecting the values in Table A and in Table B. Table A is an example of an exponential growth function, similar to yesterday's lesson. Table B is an example of an exponential decay function. The warm up is meant to expose students to the difference between an exponential growth function and an exponential decay function.
I discuss the implementation of the Warm-up in greater detail in the video below:
Teaching Note: For this lesson, I will prepare copies of the following before class:
I introduce the context for today's rebounding ball activity to my students with this short 6 second video. I state, "Today we will be comparing the number of bounces of a tennis ball to the height of each bounce." I have students work on this problem with their assigned elbow partner. In this lesson, I provide the students with the problem and with a data table.
Problem-Bouncing tennis ball : A tennis ball is dropped from a height of 100 inches. The data below shows the height of the ball after each bounce, which is called the rebound height. Analyze the pattern of the output of the table, determine the type of function, and write the equation of the function.
The independent variable in this activity is the number of bounces and the dependent variable is the rebound height of the bouncing ball after each bounce. The introductory video provides a visual anchor for students. It helps them to arrive at the conjecture that the rebound height reduces after each bounce.
As they analyze the data, I want my students to recognize this function as an example of exponential decay, like Table B in the warm up. Some mathematical facts and observations that I want to cover with my students are:
After a period of sharing student responses for the bouncing ball activity in class, I will ask my students to take notes on a Frayer Model graphic organizer. I begin the class notes section by requesting that the students take out their notes from yesterday's exponential growth lesson. I want to continue to strand of comparative thinking. I choose to use the Frayer Model because it helps my students better understand the concepts, particulary when the Frayer structure allows for comparisons. My goal for this section is to build a solid foundation so that students will soon be able to write the equation for exponential functions in both forms: y=ab^x and y=(1-r)^t.
I present and describe a completed Frayer Model in the video below:
I use today's Exit slip as a formative assessment of student understanding with respect to writing an exponential equation to model a given situation.
During the class notes presentation for this lesson, I emphasized the differences between exponential growth and exponential decay. At this point, I want my students to be able to identify the percent of increase or decrease in an exponential function, and, the common ratio being multiplied between intervals.
Some of the results that I am looking for in student responses are as follows:
The price of the car after 8 years is $6473.42.