1. A visual representation of details and actions which assists children with problem solving A tool to help children think logically when making computations. X 73

2. Part/Part/Total diagrams are not proportional PPT diagrams do not reinforce problem solving or number relationships

3. Ted has 6 toys. Mary has 2 toys. How many toys do they have altogether? T 62 When the parts are not represented in proportion, student do not reinforce the relationship between the numbers.

4. 10 82 46

5. Fred has 6 toys. Mary has 2 toys. How many toys do they have altogether? T 62 Let’s consider the same problem with bar modeling… Like the Part/Part/Whole diagram, the bar model allows the students to put parts together to get the total number of toys, but the bar model reinforces the notion that Ted has more than Mary. requires students to be more thoughtful about where to put the numbers It also allows for further exploration… How many more does Ted have than Mary? How many could Ted give Mary so they could have the same, etc….

6. Number Model: _____________+_____________=_____________ _____________=_____________+_____________

7. Number Model: _____________+_____________=_____________ _____________=_____________+_____________

8. Bar Modeling Number Model: _____________+_____________=_____________ _____________=_____________+_____________

9. Fred has 6 toys. Mary has 2 toys. How many toys do they have altogether? T 62 T is the same as 6+2 T=6+2 T=8 There are 8 toys altogether. *Since the parts are the same size as the whole, it reinforces that equal means ‘same as’. As bar models get more complicated, the bar models will continue to provide a visual for the algebraic relationships

10. Have you ever had students add when they should subtract? – John collects rocks. He started with 4. After his vacation, he had 10. How many rocks did he collect on vacation?

12. BeginningChangeEnd AdditionPartAdd (join) a PartTotal SubtractionTotalSubtract (separate) a Part Part

13. Number Model: _____________+_____________=_____________

14. Start Change End + = 4 butterflies were sitting on a branch. 2 more landed on the branch. How many butterflies were on the branch now?

15. Number Model: 4+2=6

16. Change problems can be presented in different ways so… Bar Models will help students to: – Think about what information they have been given and what information they will are being asked to figure out. BeginningChangeEnd Addition (Change) PartAdd (join) a PartTotal B*26 4 6 24B * May require subtracting or ‘counting up’. The bar model will help students choose what to do.

17. Total Amount Unknown# Story The team had 8 runs. They scored 2 more. How many do they have in all? 8+2=R Amount Joined Unknown John has $2 in his piggy bank. He needs $10 to buy the new toy he wants. How much more does he need to save to have enough money? 2+D=10 Initial Amount Unknown Mary added 5 books to her library. Now she has 10 books in her library. How many books did she start with? B+5=10 R 82 10 2D B5

18. Total Amount UnknownPicture Amount Joined UnknownPicture Initial Amount UnknownPicture

19. Total Amount UnknownNumber Model Amount Joined UnknownNumber Model Initial Amount UnknownNumber Model

20. Bar Modeling- Subtraction-Change Number Model: _____________-_____________=_____________

21. Start Change End - = There were 4 butterflies sitting on a branch. 2 flew away. How many were left?

22. Bar Modeling- Subtraction-Change Number Model: 5-2=3

23. Change problems can be presented in different ways so… Bar Models will help students to: – Think about what information they have been given and what information they will are being asked to figure out. BeginningChangeEnd Subtraction (Change) TotalSubtract (separate) a Part Part 5B3 52B B*23 * May requires adding.. The bar model will help students choose what to do.

24. Amount Remaining Unknown # Story Suzie had $10. She spent $8 on lunch. How much money does she have left over? 10-8=x Amount Separated Unknown John had to read 10 books over the summer. He only has 2 left to read. How many books did he read? 10-x=8 Initial Amount Unknown Jim ate 5 cookies out of the box. He only has 5 left. How many were in the box? X-5=5 10 8x x8 x 55

25. Amount Remaining Unknown Picture Amount Separated Unknown Picture Initial Amount Unknown Picture

26. Amount Remaining Unknown Number Model Amount Separated Unknown Number Model Initial Amount Unknown Number Model

27. Bar Modeling- Part/Part Whole Number Model: _____________+_____________=_____________ _____________-_____________=______________

28. 1 st Part 2 nd Part End + = There were 4 butterflies and 2 ladybugs sitting on a branch. How many insects were sitting on the branch?

29. Bar Modeling-Part/Part/Whole Number Model: 4+2=6 6-4=2 6-2=4

30. Part/Part/Whole problems can be presented in different ways so… Bar Models will help students to: – Think about what information they have been given and what information they will are being asked to figure out. 1 st Part2 nd PartWhole Addition (Part/Part/Whole) I Subtraction (Part/Part/Whole) I I

31. Whole Unknown # Story There were 2 apples and 8 bananas in the fruit bowl? How many pieces of fruit were in the bowl? F=2+8 First Part Unknown Jim had 10 brothers and sisters. How many sisters did he have if head 2 brothers? 10=s+2 Second Part Unknown Jim had 10 brothers and sisters. If he had 5 brothers, how many sisters did he have? 10=5+B F 28 10 S2 5x

32. Whole Unknown Picture First Part Unknown Picture Second Part Unknown Picture

33. Whole Unknown Number Model First Part Unknown Number Model Second Part Unknown Number Model

34. There are 3 types of addition/subtraction problems: change, part/part/whole and comparison. Change and part/part whole problems are based on the concepts of parts building wholes. COMPARISON PROBLEMS DO NOT! COMPARISON PROBLEMS ARE BASED ON FINDING THE DIFFERENCE BETWEEN TWO PARTS

35. Bar Modeling- Multiplication Number Model: _________-__________=_________ (more or less)

36. Larger Smaller Amount -= Jim has 5 butterflies. Mary has 2. How many more butterflies does Jim have than Mary?

37. Number Model: 5-2=3

38. Comparison problems can be presented in different ways so… Bar Models will help students to: – Think about what information they have been given and what information they will are being asked to figure out. Larger AmountSmaller AmountAmount more or Less Unknown (Difference) Subtraction (Comparison) B B Addition (Comparison) B * May require adding. Bar Models will help students figure out what to do.

39. Amount More (or Less) Unknown c Difference # Story Ted has 10 crayons. Neil has 4 crayons. How many more crayons does Ted have than Neil? How many fewer crayons does Neil have than Ted? 10-4=c Smaller Amount Unknown 6 Difference Ted had 10 crayons. Neil has 6 less than Ted. How many crayons does Neil have? 10-6=c Larger Part Unknown 5 Difference Ted Has 5 crayons. Neil has 5 more than Ted. How many crayons does Neil have? 5+5=c 10 4 c c 5

40. Picture

41. Number Model

42. Multiplication Bar Modeling Number Model: _____________x_____________=_____________

43. Bar Modeling- Multiplication Number Model: _____________x_____________=_____________

44. Start Join X = Jim collects butterflies. There were 3 butterflies in each container. He had 2 containers. How many butterflies does Jim have in his collection?

45. Number Model: 6÷2=3

46. Multiplication can be presented in different ways so… Bar Models will help students to: – Think about what information they have been given and what information they will are being asked to figure out. Total# of PartsAmount Per Part 6B*3 62 B23 * May require dividing.. The bar model will help students choose what to do.

47. Total Amount UnknownExample Ted has 5 cartons of eggs. Each carton has 12 eggs in it. How many eggs does Ted have? E=12x5 Amount Per Group UnknownExample Ted bought 4 bags of apples. Altogether, there were 36 apples. How many apples were in each bag? 4xA=36 # of Groups UnknownPicture Ted bought $40 worth of books for his friends. Each book cost $8. How many books did he buy? 40=Bx8 e 1212 1212 1212 1212 1212 36 AAAA 40 8B

48. Total Amount UnknownPicture Amount Per Group UnknownPicture # of Groups UnknownPicture

49. Total Amount UnknownNumber Model Amount Per Group UnknownNumber Model # of Groups UnknownNumber Model

50. Bar Modeling- Division Number Model: _____________÷_____________=_____________

51. Start Separate End ÷ = Jim caught 6 butterflies. She placed them in 2 containers. How many were in each container

52. Division Number Model: 6÷2=3

53. Division can be presented in different ways so… Bar Models will help students to: – Think about what information they have been given and what information they will are being asked to figure out. Total# of PartsAmount Per Part 5B3 62B B*23 * May require adding.. The bar model will help students choose what to do.

54. Amount Per Group UnknownExample Ted has 60 eggs. E=12x5 Amount Per Group UnknownExample Ted has 36 apples. He put them into 4 bags. How many apples did he put in each bag? 36=4xA # of Groups UnknownPicture Ted bought $40 worth of books for his friends. Each book cost $8. How many books did he buy? 40=Bx8 36 eeeee AAAA 40 8B

55. Amount Per Group UnknownExample Ted has 60 eggs. E=12x5 Amount Per Group UnknownExample Ted has 36 apples. He put them into 4 bags. How many apples did he put in each bag? 36=4xA # of Groups UnknownPicture Ted bought $40 worth of books for his friends. Each book cost $8. How many books did he buy? 40=Bx8 36 eeeee AAAA 40 8B

56. Total Amount UnknownPicture Amount Per Group UnknownPicture # of Groups UnknownPicture

57. Total Amount UnknownNumber Model Amount Per Group UnknownNumber Model # of Groups UnknownNumber Model

58. Visual representation of details and actions which assists children with problem solving Helps children logically think using visual models to determine their computations Fosters number sense because numbers are represented proportionally Teaches the importance of language within math problems Provides foundation for algebraic understanding Provides for differentiated instruction Empowers students to think systematically and master more difficult problems Makes multi-step and multi-concept problems easy to work

59. Work on every problem Specify ONE RIGHT model Specify ONE RIGHT operation