This lesson utilizes concepts of probability, graphing and graph interpretation, mean, and
variance in analyzing a simulation of a forest fire.
Objectives
Upon completion of this lesson, students will:
work with the concept of probability
be introduced to the concept of chaos
graph and analyze using a line plot
work with means
be introduced to the concept of variance
Standards Addressed:
Grade 10
Statistics and Probability
The student demonstrates a conceptual understanding of probability and counting techniques.
Grade 6
Statistics and Probability
The student demonstrates a conceptual understanding of probability and counting techniques.
Grade 7
Statistics and Probability
The student demonstrates a conceptual understanding of probability and counting techniques.
Grade 8
Statistics and Probability
The student demonstrates a conceptual understanding of probability and counting techniques.
Grade 9
Statistics and Probability
The student demonstrates a conceptual understanding of probability and counting techniques.
Seventh Grade
Statistics and Probability
Investigate chance processes and develop, use, and evaluate probability models.
Statistics and Probability
Conditional Probability and the Rules of Probability
Understand independence and conditional probability and use them to interpret data
Use the rules of probability to compute probabilities of compound events in a uniform probability model
Making Inferences and Justifying Conclusions
Understand and evaluate random processes underlying statistical experiments
Make inferences and justify conclusions from sample surveys, experiments, and observational studies
Using Probability to Make Decisions
Calculate expected values and use them to solve problems
Use probability to evaluate outcomes of decisions
Grades 6-8
Data Analysis and Probability
Formulate questions that can be addressed with data and collect, organize, and display relevant data to answer them
Select and use appropriate statistical methods to analyze data
Grades 9-12
Data Analysis and Probability
Develop and evaluate inferences and predictions that are based on data
Advanced Functions and Modeling
Data Analysis and Probability
Competency Goal 1: The learner will analyze data and apply probability concepts to solve problems.
Grade 6
Number and Operations, Measurement, Geometry, Data Analysis and Probability, Algebra
COMPETENCY GOAL 4: The learner will understand and determine probabilities.
Student Prerequisites
Arithmetic: Student must be able to:
calculate averages (mean)
graph ordered pairs
Technological: Students must be able to:
perform basic mouse manipulations such as point, click and drag
use a browser for experimenting with the activities
Teacher Preparation
Access to a browser
Copies of the supplemental materials:
Dice
Graph Paper
Key Terms
chaos
Chaos is the breakdown of predictability, or a state of disorder
line graph
A diagram showing a system of connections or interrelations between two or more things by using lines
mean
The sum of a list of numbers, divided by the total number of numbers in the list. Also called arithmetic mean
probability
The measure of how likely it is for an event to occur. The probability of an event is always a number between zero and 100%. The meaning (interpretation) of probability is the subject of theories of probability. However, any rule for assigning probabilities to events has to satisfy the axioms of probability
Lesson Outline
Focus and Review
Remind students what has been learned in previous lessons that will be pertinent to this lesson
and/or have them begin to think about the words and ideas of this lesson:
If I roll this die, what is the probability that I will roll:
an even number?
a two?
a seven?
a number less than 7?
Objectives
Let the students know what it is they will be doing and learning today. Say something like this:
Today, class, we are going to use a computer to simulate burning down a forest. Please do not
turn on your computers until I ask you though as we are going to play the simulation by hand
first.
Teacher Input
Bring up the
Fire!! activity on an overhead screen in order to demonstrate how the activity works.
Explain how setting the probability determines which trees burn. If one tree is on fire the
probability determines that one of its four neighbors will catch.
Set the probability to 0% and ask students to predict what percent of the forest will burn.
Demonstrate several times to show them that their hypothesis was correct or incorrect. Repeat
with a probability of 100%.
Always burn from the center tree for control in the experiment. You may wish to discuss the
importance of using controls in experiments.
You may wish to review converting fractions, decimals, and percents at this point.
Ask students if they think that the set probability will always equal the overall percent of
burn since it did with 0% and 100%.
Guided Practice
Pair students and give each pair a die and a piece of grid paper. Have them outline two 5 x 5
grids and draw an
X in the center square.
Tell the students they will be doing a paper simulation similar to the simulation that you
showed on the computer. This time though they will only use a 5 x 5 grid to work (as opposed
to a 17 x 17 grid) and they should use a probability of 50%.
Demonstrate on the board or overhead how the paper simulation should work by drawing a 5 x 5
grid with an
X in the center. You may wish to discuss how you could use the die to simulate a 50%
probability of burn.
Place a small dot in the square above the
X denoting this is the square you are testing to see if it catches or not. Roll the die to
determine if it catches. If it does, mark it through with an
X and if it does not, erase the dot. Repeat the other squares beside the
X. Work through the entire example on the board making sure all students understand how the
simulation works.
Calculate the percent of the forest burned.
Be sure to point out that it is only the trees above, below, left and right of a burning tree
they should test.
When students are finished, list the results of each trial on the board.
Ask the students to recall their answer to whether the set probability of burn equals the
overall percent of forest burned. (It may in some cases but probably won't in most.)
Move on to the computer simulation.
Bring up a second window with the
Simple Plot activity. Tell the students you want to plot the data collected to see if a pattern can be
determined. The x-axis should represent the probability of burn and the y-axis should
represent the overall percent of forest burned. Plot the first two data points: (0,0) and
(1,100) from the computer "Fire" model. Make sure the
Connected plot type is selected.
Discuss with students this graph as a model of the forest fire data.
Discuss whether they believe this model accurately predicts the forest burned for different
set probabilities. Based upon the data collected with the 5 x 5 grid students should come to
the conclusion it is probably not.
Test the 50% burn probability ten times using the "Fire!" computer activity and record the
results. There should be variance in this data. Record each result on the board.
Discuss with students how you could use all of those varying data points to determine a single
data point to graph on the line graph. Students should conclude the arithmetic mean would be a
good solution.
Begin a new line plot on the coordinate plane by typing
newgraph under the last ordered pair. Calculate the mean for the 10 data points and plot (0.5, mean).
Discuss with students how to make the graph more accurate. Students should come to the
conclusion it would be more accurate by testing various data points for different burn
probabilities in approximately equal intervals.
Independent Practice
Have each pair of students complete their own two grids.
Assign each pair of students a probability to test. Each pair should conduct the test 10 times
and determine the mean of the overall percent of forest burned at their designated
probability.
Closure
Collect the means from all the students and write them on the board. Be sure to make note if
which mean corresponds to which probability.
Using the same graph as before, once again type all the collected data and graph as ordered
pairs in the form (probability, mean of overall burn). The resulting curve will probably be
S-shaped.
There are several points you can make about the experiment:
Scientists use computer models to help find patterns that may be difficult to identify
otherwise. This model shows that between probabilities of 0 to about 35% the fire burns
itself out. Between 35-60% the fire is chaotic and unpredictable with significant variance
at each of those probabilities. Above about 60% the fire almost always burns down the
entire forest.
Discuss how this model relates to a real forest fire. What are the similarities and the
differences? What does a high/low probability of burn relate to in a real fire?
Alternate Outline
This lesson can be rearranged in several ways.
Have students draw out a graph as a hypothesis to predict the behavior of the overall system.
For a more advanced lesson, have students study the variance at each tested probability. Which
probability yields the largest variance? For probabilities with high variance is the mean a
good expression of the data? Help the students express these highly variable values as
uncertainty i.e. 40% +/- 30%.
How does the resulting graph change if the location where the fire is started changes?
Suggested Follow-Up
Use the
Directable Fire!! and/or
A Better Fire!! activities to compare to the Fire!! model and conduct similar experiments and compare the
results.