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DTSTART;TZID=America/New_York:20260720T090000
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SUMMARY:Math Institute: Building Structure\, Fluency\, and Mathematical Reasoning
DESCRIPTION:Adaptable to your schedule!  \nJoin us for this four-day institute with leading researchers in math instruction. Create a personalized learning experience by attending a single session or the full institute. \nDates: July 20-23\, 9:00 am- 12:00 pm EST\nLocation: Virtual\nCredits: NYCTLE credits – 3 hours per workshop \nDay 1: Building Mathematical Vocabulary and Discourse \nPresenter: Elizabeth Stevens\, PhD \nDescription:\nThis session focuses on helping educators strengthen students’ mathematical vocabulary and deepen discourse across the classroom. Participants will explore how to build a consistent set of practices and routines that support students in using precise mathematical language with confidence. Educators will explore strategies for fostering both oral and written explanations\, encouraging students to articulate their reasoning\, ask meaningful questions\, and engage in productive mathematical conversations. Through modeled routines\, practical examples\, and collaborative activities\, educators will learn how to create a classroom culture where mathematical talk is intentional\, accessible\, and an essential part of daily learning. \nKey Learning Objectives: \n\nlearn how vocabulary instruction can be incorporated into your mathematics instruction\nexplore routines and structures that strengthen mathematical vocabulary and daily discourse\ngain strategies to support clear oral and written math explanations\ngain techniques that promote student-to-student mathematical conversations\nexplore ways to foster a classroom culture where precise math language is used confidently\n\n Day 2: A Structured Approach to Solve Addition Math Word Problems \nPresenter: Elizabeth Hughes\, PhD \nDescription:\nThis session introduces participants to the principles of schema-based instruction\, an approach that helps students make sense of word problems by recognizing underlying mathematical structures rather than relying on superficial keywords. We will explore the major additive problem types\, including join\, separate\, part–part–whole\, and compare\, and discuss how to guide students in identifying these structures across varied contexts. Participants will learn how to use visual models to represent thinking\, support problem comprehension\, and strengthen conceptual understanding. The session will also include a brief introduction to worked examples as an effective tool for building clarity and reducing cognitive load as students internalize problem schemas. \nKey Learning Objectives: \n\nunderstand what schema-based instruction is and why it supports deeper mathematical comprehension\nidentify and explore the four major additive problem types\ngain strategies for helping students recognize problem structure rather than relying on keywords\ngain practical ways to use visual models to represent thinking and support problem-solving\nexplore how worked examples can build conceptual clarity and reduce cognitive load for learners\n\n  \nDay 3: The Power of Structure: Understanding Multiplicative Thinking \nPresenter: Jonté Meyers\, PhD \nDescription:\nThis session will deepen participants’ understanding of multiplicative reasoning and how it differs fundamentally from additive reasoning. We will explore key multiplicative structures\, including equal groups\, comparison situations using “times as many\,” arrays and fundamental differences\, rate problems\, to build a solid conceptual foundation. Participants will examine how students form composite units and why this shift in thinking is essential for fluent multiplication and division. The session will highlight a range of representations that make multiplicative structure visible\, supporting stronger reasoning and problem solving. Finally\, we will look at worked examples that clearly connect visual models to procedures\, helping learners internalize the logic behind efficient strategies. \nKey Learning Objectives: \n\nunderstanding how multiplicative reasoning fundamentally differs from additive reasoning\, and why this shift matters for students’ mathematical development\nfamiliarity with major multiplicative structures\, including equal groups\, “times as many” comparison problems\, arrays/area models\, and rate situations\ninsight into how learners build composite units and how to support this critical cognitive move\nstrategies for using representations that reveal multiplicative structure\, helping students see and make sense of relationships\nexplore worked examples that connect visual models to formal procedures\, building conceptual and procedural fluency\n\nDay 4: The Science of Math: Turning Research into High-Impact Classroom Practices \nPresenter: Paul Riccomini\, PhD \nDescription:\nThis workshop covers spaced learning\, varied practice types\, and information recall\, three evidence-based methods to enhance student learning. Educators will receive frameworks and develop a clear understanding of the scientific principles underlying these approaches. Participants will examine cognitive processes that support long-term retention and acquire techniques to deepen students’ understanding and application of math knowledge. Through interactive activities and collaborative planning\, educators will learn to incorporate these strategies into mathematics instruction. \nKey Learning  \n\nexplain key cognitive processes related to memory and retention within math concepts\nidentify and understand the research supported techniques of Spaced learning\, Interleaved Practice\, and Practice Test Retrieval\nanalyze how retention strategies can vertically align with K–12 mathematics instruction\napply evidence-based techniques to authentic classroom scenarios by designing lesson components\, tasks\, and review routines\ngain a toolkit of instructional scaffolds that integrate into math lessons
URL:https://thewindwardinstitute.org/event/math-institute-building-structure-fluency-and-mathematical-reasoning/
CATEGORIES:Summer Institutes,Workshops
ORGANIZER;CN="The Windward Institute":MAILTO:wi@thewindwardschool.org
LOCATION:https://thewindwardschool-org.zoom.us/j/94228067578
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