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Topics for Discussion Day 2 Summer 2014 Mathematics Training

Topics for Discussion Day 2 Summer 2014 Mathematics Training. Standards for Mathematical Practice (SMP) Differentiated Instruction Mathematical Literacy. 8:00 – 9:45 Discussion and Engagement Activities 9:45 – 10:00 Break 10:00 - 12:00 Discussion 12:00 – 1:00

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Topics for Discussion Day 2 Summer 2014 Mathematics Training

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  1. Topics for DiscussionDay 2 Summer 2014Mathematics Training • Standards for Mathematical Practice (SMP) • Differentiated Instruction • Mathematical Literacy • 8:00 – 9:45Discussion and Engagement Activities • 9:45 – 10:00 Break • 10:00 - 12:00 Discussion • 12:00 – 1:00 • 1:00 – 3:00 PLC Training with PD Team Members

  2. Annie Fetter of Math Forum talks about "Notice" and "Wonder"

  3. Mathematically proficient students…

  4. “Practices are an engine for focusing, and a reward for doing so.”Jason ZimbaLead Writer CCSSM “One important purpose of learning mathematics is to develop useful, analytic, quantitative, logical ways of looking at the world and thinking about things. When mathematical ways of thinking begin to become automatic – not just ways one can use, but ways one is LIKELY to use – it is reasonable to call them, habits: mathematical habits of mind.” http://ttalgebra.edc.org/AHOM

  5. Why Do We Need the Standards for Mathematical Practice? “Two kinds of knowledge are needed of 21st century learners: mathematical contentand mathematical practice.” Implementation of the practices are critical to implementation of the shift of rigor. It is THROUGH the STANDARDS FOR MATHEMATICAL PRACTICE that deep conceptual content understanding, fluency and procedural skill, and application are attained. Mathematical Practices are not learned so much through direct teaching methods, although teacher-modeling of their own use of SMP is important, but the practices develop over time for the students from rich opportunities that the teacher gives in the classroom.

  6. Pay close attention to the verbs.

  7. MP1 and MP6 are important in every aspect of teaching and learning mathematics. The purpose of these standards is to build within students the sense that they can successfully “do” mathematics and build precision in their use of mathematical symbols, units, and language. These two standards are the Habits of Mind that students need to use in solving any mathematics problem. Math Practice 1 Math Practice 6 “Attend to precision” http://www.insidemathematics.org/index.php/standard-6 • “Make sense of problems and persevere in solving them” • http://www.insidemathematics.org/index.php/standard-1

  8. How many triangles are in the diagram above? • .  • What conjectures did you make about the problem in order to understand the solution? • What critical thinking skills did you use and did you collaborate with someone? • Did you hold steadfast until you had a sensible solution, and if so, what did you do to persist in finding the solution?

  9. #2: Mathematically Proficient Students … Reason abstractly and quantitatively. Decontextualize Represent as symbols, abstract the situation Contextualize Pause as needed to refer back to situation 5 Mathematical Problem ½ P x x x x -- Ellen Whitesides (University of Arizona, Institute for Mathematics and Education). Presentation to the CCSSO Mathematics SCASS, November 2011.

  10. SMP Progression Document, Grades K-5 http://commoncoretools.me/wp-content/uploads/2014/02/Elaborations.pdf SMP Progression Document, Grades 6-8 http://commoncoretools.me/wp-content/uploads/2014/05/2014-05-06-Elaborations-6-8.pdf http://www.louisianabelieves.com/docs/common-core-state-standards-resources/guide-math-practices-progression-grades-6-8.pdf?sfvrsn=2

  11. Reasoning and Explaining Math Practice 2 Math Practice 3 “Construct viable arguments and critique the reasoning of others” http://www.insidemathematics.org/index.php/standard-3 • “Reason abstractly and quantitatively” • http://www.insidemathematics.org/index.php/standard-2

  12. Elaine Watson, Ed.D. • watsonmath.com • Her site is used to: • store interesting links to K – 12 math resources • create posts about K – 12 math education • expressing my own insights and sharing and building on the ideas of other • post links and resources that I use in my presentations and courses • she coaches K – 12 teachers and principals on best practice in mathematics education • She presents mathematics workshops to small and large groups on… • instruction • content • assessment • Common Core State Standards

  13. http://caccssm.cmpso.org/home • TheCMP, in collaboration with other groups established the CaCCSS-M Task Forces in order to collect, design, and organize resources that could be used in professional development (PD) that will strengthen teachers’ content knowledge to teach the standards: • K-2 Number Sense and Place Value • Fractions from a Number Line Approach • Model with Mathematics • Transformational Geometry • High School Mathematical Modeling “Mathematical modeling is the link between mathematics and the rest of the world.” (Meerschaert, M., Mathematical Modeling,Elsevier Science, 2010)The process of beginning with a situation and gaining understanding about that situation is generally referred to as “modeling”. If the understanding comes about through the use of mathematics, the process is known as mathematical modeling. 

  14. K-8 Modeling Task Force The CCSS expects mathematically proficient students to be able to apply the mathematics they know to solve problems arising in everyday life, society, and the workplace. They are able to identify important quantities in a practical situation and map their relationships using such tools as diagrams, two-way tables, graphs, flowcharts and formulas. In order for teachers to produce students capable of applying mathematics in the ways described above, they will need to engage students in tasks that require critical thinking and problem solving, Critical thinking and problem solving are skills that can be taught, however, in our current era of accountability, many teachers abandon the teaching of these skills in favor of test preparation.

  15. Modeling and Using Tools Math Practice 4 Math Practice 5 “Use appropriate tools strategically” • “Model with mathematics • http://www.insidemathematics.org/index.php/standard-4 http://www.insidemathematics.org/index.php/standard-5

  16. Seeing Structure and Generalizing Math Practices 7 and 8 are two that really support students in understanding algebra. Math Practice 7 Math Practice 8 “Look for and express regularity in repeated reasoning” http://www.insidemathematics.org/index.php/standard-8 “Look for and make use of structure” • http://www.insidemathematics.org/index.php/standard-7

  17. SMP Progression Document, Grades K-5 http://commoncoretools.me/wp-content/uploads/2014/02/Elaborations.pdf SMP Progression Document, Grades 6-8 http://commoncoretools.me/wp-content/uploads/2014/05/2014-05-06-Elaborations-6-8.pdf http://www.louisianabelieves.com/docs/common-core-state-standards-resources/guide-math-practices-progression-grades-6-8.pdf?sfvrsn=2

  18. http://mathpractices.edc.org/content/about-mps Explore the site and discover all that is available for various grade levels 5 through HS, grade 10.

  19. Will Shortz New York Times Have you ever KenKened? “…a puzzle is supposed to be puzzling.”

  20. Puzzle #19 3x3, Addition Only Tetsuya Miyamoto is a Japanese mathematics teacher who invented the numerical logic puzzle KenKen. The name translates to mean, "a puzzle that makes you smarter." Miyamoto developed KenKen in 2004 to help his students improve their calculation skills, logical thinking and patience. http://www.kenken.com/game

  21. “Preparation for this world requires learning to approach new and unfamiliar problems with the confident “I can puzzle this out” attitude. Students need to develop a disposition to tackle problems with only the knowledge they have (or can find on their own) without a pre-learned solution method.”

  22. Permission To Think Differentiate Cognitively Challenging Puzzles Are Fun!

  23. When the real world throws us a problem, it never asks us what chapter we’ve just studied! “Successful mathematical problem-solvers need both understanding and skill. To develop skill and confidence, children need practice, and a lot of it. But when the practice becomes too mechanical, children’s minds turn off—they ‘sleepwalk’ through the practice, and gain less from it.”

  24. Teacher-Planning Toolsby: Melisa Hancock Math Consultant, Kansas Standards for Mathematical Practice Observation Tool Sometimes referred to as the “Look fors” tool Teacher Actions Student Actions

  25. Integrating the Standards of Mathematical Practice Upper Elem. Grades High School Cathy Humphreys engages her students in exploring properties of quadrilaterals. In this clip, her students into small groups to focus on specific quadrilaterals and use materials to test their observations. Which SMPs can her students demonstrate? • Fran Dickinson leads a number talk on an input/output table and graph, asking “What’s my rule?” In this clip, he harvests students’ observations about the underlying operation that yields specified outputs. • What SMPs do you see/hear evidence of?

  26. “My Favorite NO” Formative Assessment 6 min. “Graphing Linear Equations: Full Body Style” 5 min. https://www.teachingchannel.org/videos/surface-area-lesson

  27. http://connectedmath.msu.edu/ Connected Mathematics Project (CMP) is a complete mathematics curriculum for middle school teachers and students.

  28. “Children’s goals and beliefs about learning are related to their mathematics performance.”National Mathematics Advisory Panel, “Foundations for Success”, Final Report “Whenever children believe that their efforts to learn make them “smarter”, they show greater persistence in mathematics learning. It is critical that teachers and other educational leaders should consistently help students and parents to understand that an increased emphasis on the importance of effort is related to improved mathematics performance.”

  29. Video LibraryEngage NY https://www.illustrative mathematics.org http://thinkmath.edc.org/resource/ccss-mathematical-practices

  30. Professional Development Modules

  31. All Grade Levels – Same Template

  32. http://www.learnnc.org/

  33. http://commoncore.americaachieves.org/

  34. The Mathematics Assessment Project has developed the Classroom Challenges to exemplify the types of activities needed to supplement traditional classroom practice and support the standards. The professional development modules are designed to help teachers with the practical and pedagogical challenges presented by these lessons. • There are 5 PD modules, all available for download. • Module 1 introduces the model of formative assessment used in the lessons, its theoretical background and practical implementation. Modules 2 and 3 look at the two types of Classroom Challenges in detail. Modules 4 and 5 explore two crucial pedagogical features of the lessons: asking probing questions and collaborative learning. Map.mathshell.org

  35. MODULE 4 How can we ask questions that improve thinking and reasoning?

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