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Learning Goals Upon completion of this training, participants will…

“The demands of the 21 st century has created a need for schools to become learning organizations that focus on developing human capital and creativity in their teachers to prepare them for changing the educational landscape.”.

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Learning Goals Upon completion of this training, participants will…

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  1. “The demands of the 21st century has created a need for schools to become learning organizations that focus on developing human capital and creativity in their teachers to prepare them for changing the educational landscape.” “There is an exceptionally strong relationship between communal learning, collegiality, and collective action (key aspects of professional learning communities) and changes in teacher practice and increases in student learning.”

  2. Learning GoalsUpon completion of this training, participants will… • have increased their knowledge of the new Florida State Standards for Mathematics (MAFS). • recognize how the coherence of content standards within and across the grades supports the learning progressions of students. • encourage the integration of student writing in mathematics in order to increase reasoning and problem solving skills. • Identify resources that will provide assistance with implementation of MAFS. • be equipped to develop and facilitate Professional Learning Communities (PLCs) at the school site in order to encourage a continuation of collegial learning that supports the advancement of student learning.

  3. “I lift, You grab . . . . Was that concept just a little too complex for you, Carl?” TEAM … is a group of people working interdependently toward a common goal.

  4. “The new Florida Math Standards ask us ALL to… • … rethink what it means to teach mathematics, • … understand mathematics, • … and to learn mathematics.” Sherry Fraser Faculty member of the Marilyn Burns Education Associates Common Core State StandardsCCSSM vs. Mathematics Florida State StandardsMAFS Cognitive Complexity of the Content Standards did NOT change. Amended, Deleted, Added Standards Standards for Mathematical Practice (SMP) remain for all grades. LITERACY embedded across ALL CONTENT AREAS.

  5. www.flstandards.org

  6. “The new access points in mathematics identify the most salient grade-level, core academic content for students with a significant cognitive disability.” IMPORTANT TO NOTE: “These access points are NOT ‘extensions’ to the standards, but rather they illustrate the necessary core content, knowledge, and skills that students with a significant cognitive disability need at each grade to promote success in the next grade.” Bureau of Exceptional Education and Student Services Spring 2014

  7. http://www.fsassessments.org • Grades 3 Florida Standards Assessment Test Item Specifications • Grades 4 Florida Standards Assessment Test Item Specifications • Grades 5 Florida Standards Assessment Test Item Specifications • Grades 6 Florida Standards Assessment Test Item Specifications • Grades 7 Florida Standards Assessment Test Item Specifications • Grades 8 Florida Standards Assessment Test Item Specifications • Algebra 1 EOC Florida Standards Assessment Test Item Specs • Geometry EOC Florida Standards Assessment Test Item Specs • Algebra 2 EOC Florida Standards Assessment Test Item Specs • Test Design Summary Information For families

  8. Vol. 108, No. 2, September 2014 NCTM, MATHEMATICS TEACHER …on the embedded ideas within the standards. …extension of previous learning within and across grades. …equitable attention to concepts, procedures and fluency, as well as application.

  9. Why Teachers’ Mathematics Content Knowledge Matters: • “Professional Learning Opportunities for teachers of mathematics have increasingly focused on deepening teachers’ content knowledge. Based on research studies… • Teachers’ content knowledge made a difference in their professional practice and their students’ achievement. • Teachers’ depth of knowledge meant problems were presented in familiar contexts to the children and the teacher linked them to activities they had previously completed. • Teachers with stronger content knowledge were more likely to respond to students’ mathematical ideas appropriately, and they made fewer mathematical or language errors during instruction.

  10. Principle #1:Increases in student learning occur only as a consequence of improvements in the level of content, teachers’ knowledge and skill, and student engagement. Principle #2: If you change one element of the instructional core, you have to change the other two.. The Instructional Core

  11. COHERENCE Content domains by grade band

  12. Alignment in Context: Neighboring Grades and Progressions “You're constantly reusing the same concepts in the growth of the staircase, leading to algebraic ways of thinking that you begin to master linear algebra in grade 8 and go on to a wider set of algebra in the high school.” "Bringing the Common Core to Life" David Coleman · Founder, Student Achievement Partners 16

  13. Mathematics Progressions Projecthttp://ime.math.arizona.edu/progressions/s Project

  14. Year at a Glance Nine Weeks Pacing • Organized by Units of Instruction (related standards) • Essential Questions and Vocabulary • Teaching/Learning Goal(s) and Scales • Rubric with Student Learning Target Details • Progress Monitoring and Assessment Activities • MFAS (Cpalms Formative Assessments) • Unpacked Content Standards • Unit/Critical Area • Learning Objectives (Declarative and Procedural) • DOK Level • SMP • Common Misconceptions Mathematics Standards Flip BooksFor questions or comments about the flipbooks please contact Melisa Hancock at melisa@ksu.edu http://www.katm.org

  15. Work with numerical expressions prepares students for work with algebraic expressions.

  16. Mathematics Teaching in the Middle School ● Vol. 14, No. 8, April 2009

  17. Proficiency Scale 6th

  18. Instructional Strategies for 6.EE.5 - 8 In order for students to understand equations: The skill of solving an equation must be developed conceptually before it is developed procedurally. • Students should think about what numbers could be a solution BEFORE solving the equation. • Experience is needed solving equations with a single solution, as well as with inequalities having multiple solutions. • Conceptual understanding of positive and negative numbers and operation rules is introduced in grade 6. • Students need to practice the process of translating between mathematical phrases and symbolic notation. (ie. write equations from situations/stories, write a story that references a given equation/inequality)

  19. Explanations and Examples for 6.EE.7 Students create and solve equations that are based on real world situations. It may be beneficial for students to draw pictures that illustrate the equation in problem situations. Solving equations using reasoning and prior knowledge should be required of students in order to allow them to develop effective strategies.

  20. Learning Progression Document “Expressions and Equations” Grades 6-8, pg. 7 As word problems grow more complex in grades 6 and 7, analogous arithmetical and algebraic solutions show the connection between the procedures of solving equations and the reasoning behind those procedures.

  21. 7th

  22. It is appropriate to expect students to show the steps in their work. Students should be able to explain their thinking using the correct terminology for the properties and operations. Continue to build on students’ understanding and application of writing and solving one-step equations from a problem situation to multi-step problem situations.

  23. Progression Document “Expressions and Equations Grades 6-8” pgs. 13-14

  24. Instructional Strategies for 8.EE.7 - 8 • Pairing contextual situations with equation solving allows students to connect mathematical analysis with real-life events. • Experiences should move through the stages of concrete, conceptual and algebraic/abstract. • System-solving in Grade 8 should include estimating solutions graphically, solving using substitution, and solving using elimination.

  25. Progression Document “Expressions and Equations Grades 6-8"pg. 14

  26. Write an equation that represent the growth rate of Plant A and Plant B. Solution: Plant A H = 2W + 4 Plant B H = 4W + 2 • At which week will the plants have the same height? Solution: The plants have the same height after one week. Plant A: H = 2W + 4 Plant B: H = 4W + 2 Plant A: H = 2(1) + 4 Plant B: H = 4(1) + 2 Plant A: H = 6 Plant B: H = 6 After one week, the height of Plant A and Plant B are both 6 inches.

  27. Two domains in middle school are important in preparing students for Algebra in high school. • Number System (NS) – Students become fluent in finding and using the properties of operations to find the values of numerical expressions. (Began as Number Operations with Fractions, NF grades 3-5.) • Expressions and Equations (EE) – Students extend their use of these properties to linear equations and expressions with letters. (Began as Operations and Algebraic Thinking, OA grades K-5.) Algebra: Reasoning with Equations and Inequalities (A-REI.1-12) • Understand solving equations as a process of reasoning and explain the reasoning • Solve equations and inequalities in one variable • Solve systems of equations • Represent and solve equations and inequalities graphically

  28. HS Proficiency Scale

  29. Scope and Sequence Curriculum Blueprints

  30. Rigor is defined as a process where students: • Approach mathematics with a disposition to accept challenge and apply effort. • Engage in mathematical work that promotes deep knowledge of content, analytical reasoning, and use of appropriate tools; and • Emerge fluent in the language of mathematics, proficient with the tools of mathematics, and empowered as mathematical thinkers.

  31. Focus on complexity of content standards in order to successfully complete an assessment or task. The outcome (product) is the focus of the depth of understanding. RIGOR IS ABOUT COMPLEXITY

  32. What is Depth-of-Knowledge?DOK • A scale of cognitive demand (thinking) based on the research of Norman Webb (1997). • Categorizes assessment tasks by different levels of cognitive expectation required of a student in order for them to successfully understand,think about, and interactwith the task. • Key tool for educators so that they can analyze the cognitive demand (complexity) intended by the standards, curricular activities, and assessment tasks. “Content complexity ratings reflect the level of cognitivedemand that standards and corresponding instruction impose upon a student. The evolution of Florida’s standards and assessment alignment is illustrative of the state’s ongoing effort to support the development of a curriculum and assessment system that exemplifies the qualities of focus, coherence, and rigor embodied by the new FL standards.” Content Complexity Florida Standards: Definitions July 2014

  33. Just the Facts – Low Level Processing “Familiar” – Procedures & Routines, 2 + Steps Real-World Problem – Develop Plan - Justification Take what you learned and extend it to something else – Make Judgments – WRITE!

  34. MAFS + DOK = Math Standards & Math Practices

  35. Standards for Mathematical Practice

  36. Mathematics Assessment Projecthttp://map.mathshell.org “I would say that CCs are collaborative lessons that are built around one concept and are structured in ways to allow an initial entry point that every student can access in some way. They really allow a group of students to explore their understanding of the concept.”

  37. http://mathpractices.edc.org/

  38. Linking the Mathematical Practices with the Content Standards • Mathematical Practices Learning Community Templates • Tasks that Align with the Mathematical Practices Resources to Support the Implementation of the Standards for Mathematical Practice (SMP)

  39. http://files.eric.ed.gov/fulltext/ED544239.pdf “Writing in mathematics gives me a window into my students’ thoughts that I don’t normally get when they just compute problems. It shows me their roadblocks, and it also gives me, as a teacher, a road map.” -Maggie Johnston 9th grade mathematics teacher, Denver, Colorado “Using Writing in Mathematics to Deepen Student Learning” by Vicki Urquhart

  40. Why are we writing in math class? • David Pugalee (2005), who researches the relationship between language and mathematics learning, asserts that writing supports reasoning and problem solving and helps students internalize the characteristics of effective communication. He suggests that teachers read student writing for evidence of logical conclusions, justification of answers and processes, and the use of facts to explain their thinking. • http://files.eric.ed.gov/fulltext/ED544239.pdf

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