Upload
becka
View
24
Download
0
Tags:
Embed Size (px)
DESCRIPTION
A Story of Units. Grade 2 – Module 6. Session Objectives. Examine the development of mathematical understanding across the module using a focus on Concept Development within the lessons. - PowerPoint PPT Presentation
Citation preview
© 2012 Common Core, Inc. All rights reserved. commoncore.org
NYS COMMON CORE MATHE MATICS CURRI CULUM A Story of Units
A Story of UnitsGrade 2 – Module 6
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Session Objectives
• Examine the development of mathematical understanding across the module using a focus on Concept Development within the lessons.
• Introduce mathematical models and instructional strategies to support implementation of A Story of Units.
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Agenda
Introduction to the ModuleConcept DevelopmentModule Review
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Curriculum Overview of A Story of Units
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Module Overview
Read the narrative.• *key concepts• models and tools• Important vocabulary
What is new and different about the way these concepts are presented?
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Agenda
Introduction to the ModuleConcept DevelopmentModule Review
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Topic A
Formation of Equal Groups
• How does addition provide a foundation for understanding multiplication?
• How can equal groups be represented mathematically?
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lesson Objective: Use manipulatives to create equal groups.
Are these groups equal or unequal? How do you know?
Lesson 1
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lesson 1 Problem Set
Lesson 1, Student Debrief
• For Problem 5, how did you go about making the three groups equal?
• Make a prediction: How are these equal groups related to addition?
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lessons 2 and 3Lesson Objective: Use math drawings to represent
equal groups, and relate to repeated addition.
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lesson 3Lesson Objective: Use math drawings to represent
equal groups, and relate to repeated addition.
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lesson 4Lesson Objective: Represent equal groups with tape
diagrams, and relate to repeated addition.
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lesson 4 Application Problem
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Topic B
Arrays and Equal Groups
• Why is the array a useful model for representing equal groups?
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Spatial Relationships and Structuring“Another type of composition and decomposition is essential to
students’ mathematical development – spatial structuring. Students need to conceptually structure an array to understand two-dimensional regions as truly two-dimensional. …
Spatial structuring is thus the mental operation of constructing an organization or form for an object or set of objects in space, a form of abstraction. …
As the mental structuring process helps them organize their counting, they become more systematic, using the array structure to guide the quantification. Eventually, they begin to use repeated addition of the number in each row or each column. Such spatial structuring precedes meaningful mathematical use of the structures, including multiplication and, later, area, volume, and the coordinated plane.”
Geometry Progression, pages 10-11
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lesson 5
Lesson Objective: Compose arrays from rows and columns, and count to find the total using objects.
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lesson 6
Lesson Objective: Decompose arrays into rows and columns, and relate to repeated addition.
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lesson 6 Problem Set• How is decomposing arrays similar
to decomposing numbers?
• For Problem 3(a), did you write the repeated addition number sentence in terms of rows or columns? Why didn’t it matter?
• How does adding or removing rows or columns change the repeated addition number sentence?
Lesson 6, Student Debrief
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lesson 7
Lesson Objective: Represent arrays and distinguish rows and columns using math drawings.
Concrete to Pictorial
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lesson 8
Lesson Objective: Create arrays using square tiles with gaps.
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lesson 8 Application Problem
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lesson 9 Problem Set
Draw a tape diagram and array. Then write an addition number sentence to match.
• In a card game, 3 players get 4 cards each. One more player joins the game. How many total cards should be dealt now?
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Topic CRectangular Arrays as a Foundation for Multiplication and Division
• How does the composition of arrays build a foundation for multiplication?
• How does the decomposition of arrays build a foundation for division?
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lessons 10 and 11
Lesson Objective: Use square tiles to compose a rectangle, and relate to the array model.
Can we make a square array with 10 tiles?
Lesson 10, Concept Development
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lesson 12Lesson Objective: Use math drawings to compose a
rectangle with square tiles. • Explain to your partner how to draw a rectangle with one square tile. Why
was precision important today? How is this different from drawing an array with X’s?
• How does drawing a rectangle support the idea of composing a larger unit from smaller units? Use the terms square, rows, and columns in your response.
Lesson 12, Student Debrief
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lesson 13
Lesson Objective: Use square tiles to decompose a rectangle.
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lesson 14Lesson Objective: Use scissors to partition a rectangle
into same-size squares, and compose arrays with the squares.
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lesson 15Lesson Objective: Use math drawings to partition a
rectangle with square tiles, and relate to repeated addition.
• For Problem 4, if you were to continue adding columns of 2, would your array look more like a train or a tower? If you wanted to increase the total number of tiles quickly, would you suggest adding more rows or columns? Why?
• Explain why you couldn’t draw another column of 2 in Problem 5
Lesson 15, Student Debrief
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lesson 16
Lesson Objective: Use grid paper to create designs to develop spatial structuring.
Why do you think we spent time creating designs and learning about tessellations today?
Lesson 16, Student Debrief
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Topic D
The Meaning of Even and Odd Numbers
• What strategies can be used to determine if a number is even or odd?
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lesson 17
Lesson Objective: Relate doubles to even numbers, and write number sentences to express the sum.
What connections do you see between
even numbers and skip counting?
Lesson 17, Student Debrief
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lesson 18Lesson Objective: Pair objects and skip-count to relate
to even numbers.
• What connections can you make between pairing objects and equal groups? If a number is even, can you make equal groups? If it is not even?
• How can you prove whether 52 is even? How about 73?
Lesson 18, Student Debrief and UDL Box
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lesson 19
Lesson Objective: Investigate the pattern of even numbers: 0, 2, 4, 6, and 8 in the ones place, and relate to odd numbers.
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lesson 19 Homework
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Lesson 20
Lesson Objective: Use rectangular arrays to investigate odd and even numbers.
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Agenda
Introduction to the ModuleConcept DevelopmentModule Review
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Biggest Takeaway
Turn and Talk:• What insights have you gained about the
importance of establishing a strong foundation in equal groups, repeated addition, and arrays in relation to multiplication and division?
• How will this benefit student understanding of multiplication and division in Grade 3?
• What connections do you see between the composition and decomposition in Module 6 and the composition and decomposition in previous modules?
© 2012 Common Core, Inc. All rights reserved. commoncore.org
N YS CO MM O N CO R E M AT H E MAT I C S C U R R I C ULU M A Story of Units
Key Points• Module 6 focuses on using repeated addition to find the total
number of objects arranged in rectangular arrays (2.OA.4), partitioning rectangles into rows and columns of same-size squares (2.G.2), and determining numbers as even and odd (2.OA.3).
• This foundational understanding is crucial, since multiplication and division is the major work of Grade 3.
• Module 6 also supports the required fluency of Grade 3: Fluently multiply and divide within 100, using strategies such as the relationship between multiplication and division or properties of operations.