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Kentucky Education Cooperatives Conceptual Building Blocks Series Day 2

Kentucky Education Cooperatives Conceptual Building Blocks Series Day 2. “ All Kids, All Successful, All the Time ”. Addition and Subtraction Day 2. Addition and Subtraction Strategy Progressions Story Problems Place Value Addition and Subtraction Strategies Identifying Error Patterns

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Kentucky Education Cooperatives Conceptual Building Blocks Series Day 2

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  1. Kentucky Education Cooperatives Conceptual Building Blocks SeriesDay 2 “All Kids, All Successful, All the Time”

  2. Addition and SubtractionDay 2 • Addition and Subtraction Strategy Progressions • Story Problems • Place Value • Addition and Subtraction Strategies • Identifying Error Patterns • Center Activities

  3. Alphabet Addition and Subtraction • Add D and E • Subtract C from F • Add P and J

  4. Addition and SubtractionStrategies • Count all (two collections) • Count on • Count back/count down to/count up from Developing Essential Understanding of Addition and Subtraction Pre-K – Grade 2, NCTM publication, page 78, Early Numeracy Research Project (Clarke, 2001)

  5. Addition and Subtraction Strategies • Basic strategies • Derived strategies • Extending and applying addition and subtraction using basic, derived and intuitive strategies Developing Essential Understanding of Addition and Subtraction Pre-K – Grade 2, NCTM publication, page 78, Early Numeracy Research Project (Clarke, 2001)

  6. Combinations and Partitions Activities • Build fluency to 5 • Build fluency to 10 • Build Part-Part-Whole Understanding • Combinations and Partitions of 20 Using: Five frames, ten frames, linking cubes, domino patterns, 20 frames K.OA, K.NBT, 1.OA, 2.OA.3

  7. Begin with Five!

  8. Move to ten! Think of a way to make 7

  9. Begin building on and off from a number

  10. Part-Part-Whole and Whole-part-part • Use of five, ten, and twenty frames with no empty boxes. Show all partitions of the whole. • Use of five, ten, and twenty frames with some empty boxes. Show all combinations of the whole.

  11. Use of Frames

  12. Use of Frames

  13. 1+1=2 2+2=4 3+3=6 4+4=8 Doubles on a Bead Rack • Objectives • Help students visualize doubles (e.g., 4+4; 6+6) • Help students use doubles in computation • The visualization is key:

  14. Check Up • Bunny Ears One hand – to combine and partition within five Two hands – to combine and partition within ten Five and Ten Frames Empty Use counters

  15. Check Up • Ask the students to give the combinations and partitions of numerals to five What goes with three to make five? If I have two, how many more do I need to make five? What two numbers combine to make five? If I have two pencils, how many more do I need to have four pencils?

  16. For our struggling students • Some students have difficulty in thinking about partitioning quantity. Use cubes that will fit on their finger tips Use Velcro and structure Use foam ten frames with removable dots Use Wiki Sticks to assist in building the symbols

  17. Salute! From Kentucky Center for Mathematics, Kentucky Numeracy Project Intervention Guide www.kymath.org

  18. Understanding Addition and Subtraction Situations The standards stress the importance of students being able to use addition and subtraction in all situations. The Four main problem types are: Add to Take from Put Together and Take Apart Compare (With unknown in all positions)

  19. Addition and Subtraction Situations

  20. We normally see problems that ask students to “join” or “separate” to find the unknown part. We tend to ask students to “put together” for addition and “take from” for subtraction. These definitions are limited and if these are the only exposure students have, they will have difficulty when the situation calls for something other than “puttogether” or “take away”. Take for example, the following problem: Bob has 3 nickels and Bill has 7 nickels. How many more nickels does Bill have than Bob?

  21. Problem Solving Mat

  22. Story Problems • Use of quantity in context assists students in attaching meaning to quantity, as well as, the actions of the operations • Incorporate number talks along with the story problems • Develop problem strings along with the story to assist students to develop efficient strategies K.OA.2, 1.OA.1, 2, 2.OA.1

  23. Story Mats

  24. Frog Story Mat

  25. Gathering for Winter Whole Group Activity

  26. Place Value • Conceptual place value develops as students are involved in mental math strategies. • Positional place value should not be taught in a procedural memorized manner. It gets in the way of a students development of a conceptual understanding. Developing Number Knowledge, 2012. Wright, Robert J., Ellemor-Collins, David., and Tabor, Pam. Sage Publications.

  27. Unitizing and Place Value • Unitizing in place value is the understanding that ten ones is the same one ten. • Represents a HUGE shift in understanding • 56 is 5 tens and 6 ones and is also: 4 tens and 16 ones 3 tens and 26 ones 2 tens and 36 ones 1 ten and 46 ones 56 ones Developing Number Knowledge, 2012. Wright, Robert J., Ellemor-Collins, David., and Tabor, Pam. Sage Publications.

  28. Place Value • Grouping items Cups and counters Sticks and bundles Dot strips Ten frames K.NBT, 1.NBT.2,3, 4, 5,6, 2.NBT.1, 2, 3, 4

  29. A Conceptual Understanding of Ten = Developing Number Knowledge, 2012. Wright, Robert J., Ellemor-Collins, David., and Tabor, Pam. Sage Publications.

  30. Adding and Subtracting Tens to a Decade 3 tens or 30 = Developing Number Knowledge, 2012. Wright, Robert J., Ellemor-Collins, David., and Tabor, Pam. Sage Publications.

  31. Adding and Subtracting Tens off the Decade and 23 and 20 “23… 33, 43, “43” Developing Number Knowledge, 2012. Wright, Robert J., Ellemor-Collins, David., and Tabor, Pam. Sage Publications.

  32. Adding and Subtracting Tens and Ones + and 22 20, “30, 40, 43, 44, 45” Developing Number Knowledge, 2012. Wright, Robert J., Ellemor-Collins, David., and Tabor, Pam. Sage Publications.

  33. Using Bundles and Sticks 300 (3 groups of hundreds), 20 (2 groups of tens), and 4 (4 sticks) 324 Developing Number Knowledge, 2012. Wright, Robert J., Ellemor-Collins, David., and Tabor, Pam. Sage Publications.

  34. 7 + 5 What moves do you want to make?

  35. Using Dots 300 (3 hundreds), 20 (2 tens) and 4 (4 ones) is 324

  36. “Gretchen”Video

  37. Mental Math • Solve the following: 43 + 28 65 - 27 1.NBT.4, .5, .6; 2. NBT.7 .8. 9; 3.NBT.2; 4. NBT.4

  38. Student Work Betty Chad Alice “40 + 20 is 60 43 43 and 8 + 3 is 11 + 28 + 28 and 60 + 10 is 6 1 711 70, and one more is 71”

  39. Student Work Lisa’s Work Jason’s Work 65 65 – 27 = “37, 47, 57, - 27 is 30, then 3 more is 60, 42 5 more is 33+5 is 38”

  40. Common Misconceptions when adding and subtracting • “Subtract the smaller from the larger” is a rule that children apply regardless of minuend or subtrahend. 62 – 45 = 23 • Not regrouping 34 + 28 = 52 • Ignoring the zeros 2 13 303 – 154 259

  41. Instructional materials that support children in using mental math strategies • Use of composite units Bundles and Sticks Dot Strips Frames Dots on popsicle sticks Unifix Cubes – Towers Cups and counters 100 Bead Rack Base Ten Blocks

  42. Thou Shall Not CARRY 38 + 49

  43. Strategies based on Place Value 38 + 49 38 is 30 + 8 49 is 40 + 9 30 and 40 make 70 8 + 9 make 17 which is 10 and 7, so 70 and 10 is 80 plus 7 is 87

  44. Your Turn • Use the split strategy to solve the following: 56 + 32 134 + 643

  45. A Jump Strategy 38 + 49 49 + 10 is 59, plus 10 is 69, plus 10 is 79, then one more is 80, then 7 more is 87 +10 +10 +10 +1 +7 ______________________________________ 49 59 69 79 80 87

  46. Your Turn • Solve the following using a jump strategy 64 + 33 132 + 54

  47. Partial Sums 38 136 267 + 49+ 553+ 841 70 600 1000 17 80 100 87 9 8 689 1108

  48. Partial Sums Expanded Notation 533 + 327 500 + 30 + 3 300 + 20 + 7 800 + 50 + 10 = 860

  49. Your Turn • Solve the following using a partial sums strategy 327 + 488

  50. Why do so many students struggle with subtraction? • We teach them to “take away” or borrow. • Subtraction is neither commutative nor associative • Our sequence of learning is wrong • Start with the little stuff first.

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