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Geometry: Between the Devil and the Deep Blue Sea Johnny W. Lott. Thursday, July 17, 2008. Geometry should be taught like swimming— Freudenthal. Agree or disagree. What are your thoughts on axiomatics in geometry?. Pro Con Somewhere in between.
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Geometry: Between the Devil and the Deep Blue SeaJohnny W. Lott Thursday, July 17, 2008
Geometry should be taught like swimming—Freudenthal. • Agree or disagree
What are your thoughts on axiomatics in geometry? • Pro • Con • Somewhere in between
What is your goal for the level of rigor in a geometry class? • Purely axiomatic? • Purely utilitarian? • How do you decide?
What do you want for your students in their study of geometry? • Allow manipulatives? • Require axioms? • Do proofs? • Allow technology? • What are the issues?
How do you grade integrated math projects? • How do mathematicians grade application projects in mathematics?
How much skin can be grafted? • How much skin do you have? • How do you decide? • Why should I care? • Is this a geometry problem?
If a light ray emerges from S at an angle with measure of 60˚ as shown, answer the following: (1) Does the light reflect back to point S? Prove your answer. Include a Geometer’s Sketchpad drawing with your proof. (2) If possible, find the length of the light ray’s path in terms of s. • Suppose the light source was reflected at another angle. Explain whether or not that changes any of your answers to part (1).
And a problem from other areas! Can you trust your map?
Can you trust your map? • Just how much trust do you have? • Which is bigger? Greenland or Mauritania?
Why are there problems? • Why do maps contain discrepancies? • When might one map be better than another? • What are the assumptions made when maps are drawn? • What are some spatial visualization problems encountered by map-makers?
Questions to consider: • In which types of maps would you expect South America to have the greatest area? • On which maps would you expect to find the North Pole?
Examples • What is anamorphic art?
Where does it go? • Map Making • Cartography • Mapping a plane to a cylinder • Stereographic projections • Coordinates on different surfaces
Would you work for me? Recursion is more important than ever!
Example: Quilting, where does it go? • Quadrilaterals and their properties • Parallel lines • Tessellations • Rep-tiles
I pay you $1 to start the first day. I pay you $.50 the second day. After that you have to figure your own salary. It is 2.5 times today’s salary minus yesterday’s. I round up to the nearest dime. Would you work for me or the Cobb County School System? The School System rounds down to the nearest dime. Would you work for it?
Can you write a formula for or draw a graph what we just did?
You are offered a job with the following conditions. I pay you $1000 to start. You pay me a commission at the end of the first day of $100. Your net at the end of day 1 is $900. To start day 2, I double your salary; you double my commission. The process continues. Would you work for me?
Integrated math students typically are not afraid of such problems. How do you approach the previous problem?
How do you assess with performance assessment in integrated mathematics? • What are your course goals? • What are your unit goals? • What are your student objectives in a lesson? • Nothing should really be changed in following good assessment techniques.
Would you consider a modeling problem as an assessment? • What is a good problem? • What tools are allowed? • What type of student interaction is allowed?
What is important in assessing a model or a project? • Depends on the class objectives • Questions to consider • Are you building a model to answer a question or to solve a problem? • Is the project interdisciplinary? • Is this a math project or model or being done for another reason?
Assumptions • The model or project is for mathematical in nature, or at least is begin assessed in mathematics. • The model or project answers some type of question. • The model or project is to be shared with others. • Everyone involved takes assessment seriously!
Sample Vermont Rubric •Problem solving • PS1 Understanding the task • PS2 HOW? - approaches/procedures • PS3 WHY? - decisions along the way • PS4 SO WHAT? - outcomes of the activity • Communication • C1 Language of mathematics • C2 Mathematical representations • C3 Presentation
What is important in assessing a model or a project? • Identification of the problem • Formulation of assumptions • Construction of the “model” • Solution and its interpretation • Validation of solution • Mathematics • Communication
Identification of the problem • In your words, what is the problem? • Can you restate it in a way that it can be mathematized? • Can you put it in quantifiable terms? • Are there subproblems that must be identified before you can solve the problem given?
Example of Identification of a Problem • How much of your skin could be used in a skin graft? • How much skin do you have? • How can skin be measured? • How much skin could be safely grafted in general? • Do I have subproblems that have to be answered before I can move on?
Formulation of Assumptions • What are the critical assumptions to solve the problem or subproblem? • Do the assumptions significantly change the problem? • Are the assumptions reasonable? • Why did you make the assumptions? • Are arguments given to justify the assumptions?
What assumptions do you make? • According to a newspaper report, the trees in a certain land area are being cut at a rate of 15% a year. The lumber company claims that it replaces 2000 trees every year in the area. Discuss the future tree production of this land area if the plan continues.
What are reasonable assumptions? • How many trees in the area to start? • How long will trees be cut? • How can you justify your assumptions?
Construction of the Model • Contains a verbal description of the model • Evidence of effort to use math • Quantifies important features of the problem using appropriate math • Justifies choice of math • Discusses other approaches
Constructing a Model • There are about 4,000 students at a university. Early one morning the student body president tells the vice president that a famous actor (whose identity is secret) has agreed to be the commencement speaker. Develop a model for the way that information is spread.
Constructing a Model • P(n) = the total # of students who know after n hrs • Assume that each tells another every hour. • Initially, P(n) doubles every hour. • As # increases, the situation changes. • Once P(n) reaches 4,000, it cannot possibly rise. • Assuming P(n) doubles initially and remains constant when it reaches 4,000, develop a linear equation for r (the growth factor) and P(n). • Formulate a logistic difference equation for this model; use it to study how long it takes news to spread.
Constructing a Model • r initially is very close to 100% • As most people know, r approaches 0. • Logistically P(n-1) = rP(n) • And the story continues.
Solution and Interpretation • Obtains a math solution but omits details • Relates solution to original • Obtains a complete solution • Relates solution to original problem • Relates subproblem to solution of original
Solution and Interpretation • Solve the following system of equations:
Validation of Solution • Compares solution to the original problem • Reflects on assumptions and conclusions based on the original problem
Validation of Solution • Apply the solution in the system of equations to see if it works.
Validation of Solutions • Are there other ways to solve the problem? • Where will you find problems like this one?
Mathematics • Uses appropriate language • Calculations are correct • Precise language and notation
Mathematics • Two angle measures are congruent. • 1/0 = 0 • sin(x) = 4 x = 4/sin
Communication • Explanations are clear • Explanations are unambiguous • Explanations are elegant • Solid support for all arguments • Well organized
Communication • How do you deal with grammar? • How do you deal with incomplete thoughts? • How do you deal with students whose communication skills are not up to par?