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Teaching with mathematical modeling:  providing multiple entry points and connections

Teaching with mathematical modeling:  providing multiple entry points and connections. Mary Beth Searcy Appalachian State University Boone, North Carolina USA. Chile Currículum Nacional Current Implementation: Educación Básica 1° a 6° Básico Matemática United States

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Teaching with mathematical modeling:  providing multiple entry points and connections

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  1. Teaching with mathematical modeling:  providing multiple entry pointsand connections Mary Beth Searcy Appalachian State University Boone, North Carolina USA SeminarioInternacionalsobreModelamientoMatemático: Santiago, Chile

  2. Chile CurrículumNacional Current Implementation: Educación Básica 1° a 6° BásicoMatemática United States Almost a national mathematics curriculum for K-12 Common Core State Standards for Mathematics (CCSSM) http://www.corestandards.org 2012 Implementation: North Carolina one of 13 states in Phase 1 Mathematics Curriculum Changes SeminarioInternacionalsobreModelamientoMatemático: Santiago, Chile

  3. Comparing Grades 1-6 Curricula: Mathematical Thinking in the Classroom SeminarioInternacionalsobreModelamientoMatemático: Santiago, Chile North Carolina (CCSSM) Mathematical Practices Make sense of problems and persevere in solving them Reason abstractly and quantitatively Construct viable arguments and critique the reasoning of others Model with mathematics Use appropriate tools strategically Attend to precision Look for and make use of structure Look for and express regularity in repeated reasoning Chile (CurrículumNacional) Habilidades and Actitudes • Problem Solving • Argumentation and Communication • Modeling • Representation • Demonstrate an organized and methodical working style • Be flexible and creative when solving problems • Be curious about and interested in learning mathematics • Have a positive attitude about yourself and your abilities. • Be hard-working and persevere • Express yourself and listen attentively to others

  4. Teaching with Mathematical Modeling -- My journey started with questions • Why do I want to use modeling in my classroom? • How can I include modeling in the curriculum? • How can I make sure that my students make the mathematical connections within modeling? • What is teaching with modeling anyway? Seminario Internacional sobre Modelamiento Matemático: Santiago, Chile

  5. Why Teach with Mathematical Modeling?Reason #1: The Experience of Modeling • Students discover something new • Generates excitement about answering a question when “THE answer” is not known • Students see modeling as a complex process • Promotes creativity and communication Seminario Internacional sobre Modelamiento Matemático: Santiago, Chile

  6. Modeling Example #1: How many barrels of water did Columbus bring on his 1492 journey to the “New World”? Seminario Internacional sobre Modelamiento Matemático: Santiago, Chile

  7. Modeling: Columbus’ Journey and Water • Voyage manifests were lost – we do not know the answer • Can be modeled by different levels of students • Students • Ask questions – what impacts the need for water? • Learn more about Columbus’ journey and the world in the late 1400’s • Justify their choice of mathematical tools • Communicate their solution processes Seminario Internacional sobre Modelamiento Matemático: Santiago, Chile

  8. Why Teach with Mathematical Modeling?Reason #2: Reinforce Mathematical Concepts • Allows more opportunities to use mathematic concepts students have learned. • Helps draw connections to other mathematics concepts • Allows student to see how mathematical concepts are interpreted in terms of real world situations. • Promotes curiosity • Helps build foundation for more complex mathematical ideas. SeminarioInternacionalsobreModelamientoMatemático: Santiago, Chile

  9. Modeling Example #2: How much medicine do I have to take to make my sore throat feel better? (tonsillitis) Seminario Internacional sobre Modelamiento Matemático: Santiago, Chile

  10. Modeling: How much medicine do I need to take? What must I know to answer my question? I will start by thinking about how I will take my medicine each day. • Each day • I take a dose when I get up in the morning and • I take a dose when I go to bed. Seminario Internacional sobre Modelamiento Matemático: Santiago, Chile

  11. Number of Doses Modeling in Grade 1: Tonsillitis and Medicine 2 So what does this tell us about the amount of medicine I need to take for my sore throat? 4 6 Seminario Internacional sobre Modelamiento Matemático: Santiago, Chile

  12. Number of Doses What happens if …? 3 you start your first dose when you go to bed on the first day? you take a dose when you get up in the morning, a dose at lunch, and a dose when you go to bed? 6 9 Seminario Internacional sobre Modelamiento Matemático: Santiago, Chile

  13. Foundational Thinking for Later Grades Next day’s Total = Yesterday’s Total + 2 Also …Total Number of Doses= sum of groups of 2 doses Total Number of Doses = (Number of Days Taken) X 2 Counting by Twos leads us to Rates “2 doses per day” Making a Table and Graph leads to a Linear Function Model: y = 2x where x= Number of Days & y = Total Number of Doses 2 4 6 Seminario Internacional sobre Modelamiento Matemático: Santiago, Chile

  14. Why Teach with Mathematical Modeling?Reason #3: Introduce New Concepts • Explore a familiar situation with mathematics • Analyze situation and uncover the need for a new mathematical concept • Promotes further research on the situation SeminarioInternacionalsobreModelamientoMatemático: Santiago, Chile

  15. Modeling Example #3: What happens if I am in a classroom with 20 students and one of those students has the flu? Seminario Internacional sobre Modelamiento Matemático: Santiago, Chile

  16. Modeling: What will happen to the class when one person has the flu? What do I know about the spread of germs? Let us start with a simple idea … Each hour, an infected person will come in contact with two people and thus spread the flu germ to two people. Seminario Internacional sobre Modelamiento Matemático: Santiago, Chile

  17. Grade 8 Modeling: Catching the flu! Let us explore this situation with an activity. Give each of the twenty students a natural number, starting with 1 up to 20 . Now you have Student No. 1, Student No. 2, Student No. 3, Student No. 4, … , Student No. 20. Using a random number generator from natural numbers 1 to 20, we will select which student comes into class with the flu. Continue to use random number generator to see who comes in contact with “sick” students. Seminario Internacional sobre Modelamiento Matemático: Santiago, Chile

  18. Grade 8 Modeling: Catching the flu! Continue until all 20 students are “sick” and sitting down at their desks Seminario Internacional sobre Modelamiento Matemático: Santiago, Chile

  19. Grade 8 Modeling: Catching the flu!Introducing Logistic Function Our modeling activity leads us to a new idea of bounded growth. Seminario Internacional sobre Modelamiento Matemático: Santiago, Chile

  20. Modeling: Catching the FluMore questions • What happens if we change the number of contacts that people have? • What happens if we only infect a fraction of the people contacted? • Are there infectious diseases that we can model where the entire population does not become infected? • What happens if we allow for people to “recover” from their infectious state while others continue to “infect” the population? Seminario Internacional sobre Modelamiento Matemático: Santiago, Chile

  21. And so my journey with teaching with modeling continues. And it always leaves me with more questions to ask. Seminario Internacional sobre Modelamiento Matemático: Santiago, Chile

  22. Muchas Gracias • Dr. Roberto Araya de Universidad de Chile • Ministerio de Educación de Chile • Dr. Eric Marland Seminario Internacional sobre Modelamiento Matemático: Santiago, Chile

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