1. Lead Teacher Workshop 3

2. Purpose of this session is… Share and discuss examples of mid-year reporting to parents. Continue to explore the mathematics behind the National Standards with a focus on Statistics. Effective Mathematics Pedagogy - engaging learners in mathematics.

3. Mathwire.com Release the Prisoners Game who will free their prisoners first? Students use subtraction facts to find the difference of two dice. Directions, plus both the 6-sided dice and 12-sided dice, gameboards are included so teachers can target subtraction practice while helping students develop an intuitive appreciation of probability.

4. Overview (8.45 – 11.45) Any current issues? Share report examples Module: Engaging Learners in Mathematics – rich tasks Morning Tea (10.10-10.30) Unpacking Statistics in the Standards What’s new – keep updated

5. Mid Year Reports Successes Feedback from parents Possible modifications for the next report Review the report examples

6. Reviewing written reports

7. Reporting achievement in relation to National Standards Experiencin g difficulties Working towards the standard Working at the standard Working above the standard Working well above Well belowBelowAtAboveWell above Working below Working atWorking above “Harry is working_____ the National Standard for his age”

8. The Points of Difference between the Standards: In your groups, compare the curriculum and the standards; When you sit the curriculum next to the standards what do you notice? How is the growth in level 2 described in the ‘After 3 Years’ and the ‘End of Year 4’ standards? Record points of difference and progression – capture critical concepts. Record any points requiring clarification – vocabulary, concept development. Complete the process with the Year 5 and 6 standards.

9. Curriculum Level 2: Stage 5 After 3 Years at SchoolAt the end of Year 4. Apply basic addition facts and knowledge of place value and symmetry to: -Combine or partition whole numbers. - find fractions of sets, shapes and quantities. Create and continue sequential patterns with one or two variables by identifying the unit of repeat. Continue sequential patterns and number patters based on simple addition or subtraction. Apply basic addition and subtraction facts, simple multiplication facts and knowledge of place value and symmetry to: -Combine or partition whole numbers. -Find fractions of sets, shapes, and quantities. Create, continue and give the rule for sequential patterns with two variables. Create and continue spatial patterns and number patterns based on repeated addition or subtraction. Part-whole using addition facts, e.g. 18 + 8 Place value units without renaming, e.g. 40 + 50 = 90, 42 + 21 = 63 and 87 – 30 = 57, 87 – 35 = 52 Multiplication using addition facts, e.g. 8 + 8 as 2 x 8, 6 tens as 6 x 10, Part whole using subtraction facts, e.g. 37 - 9 and simple connection between add/sub e.g.14 - 6 = ? solved using 7+7. Place value with simple renaming, e.g. 49 + 24 = and 73 – 9 Multiplication using halving,e.g.14 ÷ 2 = 7 as 7 + 7 =14, doubling, and simple known facts e.g..2 x 6 = 12 so 3 x 6 = 18 (adding on).

10. Curriculum Level 3: Stage 6 By the End of Year 5By the End of Year 6 Apply additive and simple multiplicative strategies and knowledge of symmetry to: -Combine or partition whole numbers -Find fractions of sets, shapes and quantities Create, continue and predict further members of sequential patterns with two variables. Describe spatial and number patterns using rules that involve spatial features, repeated addition or subtraction with simple multiplication. Apply additive and simple multiplicative strategies flexibly to: -Combine or partition whole numbers including performing mixed operations and using addition and subtraction as inverse operations. -Find fractions of sets, shapes and quantities. Determine members of a sequential patterns, given their ordinal positions. Describe spatial and number patterns using: -Tables and graphs -Rules that involve spatial features, repeated addition or subtraction, and simple multiplication. Solves 53 – 26 by subtracting in parts. For example: 53 – 6 = 47, 47 – 20 = 27, OR 53 – 20 = 33, 33 – 6 = 27. Solves 53 – 26 using a tidy number. For example: 53 – 30 = 23, 23 + 4 = 27. Continue and predict the next few members in a sequential pattern. Uses inverse relationships to solve 53- 26. For example: 26 + 4 = 30, 30 + 23 = 53 OR 26 + 26 = 52, so 26 + 27 = 53. Determine or predict the sequential pattern given any ordinal position. Use of tables and graphs to solve spatial and number patterns.

12. Module 7 & 9 Engaging learners with mathematics http://nzcurriculum.tki.org.nz/National- Standards/Professional- development/Professional-learning- modules/Overview

13. Effective Teaching Cycle Assess Analyse data Plan Teach Practice/Apply

14. Assessment in the NZC “The primary purpose of assessment is to improve students’ learning and teachers’ teaching as both student and teacher respond to the information that it provides…… ” The New Zealand Curriculum, p.39 Assessment of learning Assessment for learning

15. Formative Assessment – Dylan Wiliam Professor of Educational Assessment at the University of London. Also works with Paul Black – co-authors of Inside the Black Box http://www.ltscotland.org.uk/learningaboutlearning/aboutlal/biogs/biogdylanwiliam.a sphttp://www.ltscotland.org.uk/learningaboutlearning/aboutlal/biogs/biogdylanwiliam.a sp.

16. Discuss… Main points that you found of interest How you do / might implement these ideas into your school. Should formative assessment be recorded?If so – how? Modelling book Teachers feedback comments in student books On planning units Other anecdotal notebook Self/peer assessment in maths diaries

17. The expectations defined by the standards include how a student solves a given problem, not only the student’s ability to solve it so…. Provide tasks with multiple possible solution strategies Using Different Problem Types

18. Different Problem Types 1. Martin opened his book and noticed that the sum of the two pages was 157. What page numbers were showing? 2. 78 + 79 = Open ended problems are something they need to think about, not simply a disguised way of practising already demonstrated algorithms open-ended procedural

19. It must be accessible to everyone at the start. It needs to allow further challenges and be extendable. It should invite learners to make decisions. It should involve learners in speculating, hypothesis making and testing, proving and explaining, reflecting, interpreting. It should not restrict learners from searching in other directions. It should promote discussion and communication. It should encourage originality/invention. It should encourage 'what if' and 'what if not' questions. It should have an element of surprise. It should be enjoyable. Ahmed (1987), page 20 How do teachers engage students in rich tasks? However, keeping mathematics interesting and fun should not be at the expense of content.

20. Posing and answering questions Gathering, sorting and displaying Communicating findings

21. MathematicsStatistics Exploration of and use of patterns and relationships in… quantities, space and time Set answer Exploration of and use of patterns and relationships in… data No definitive answer

22. How is Statistics different in the new curriculum? Data is still key Enquiry cycle (PPDAC) Verbs –Posing, gathering, sorting, displaying, communicating, displaying, using Specific graph types not mentioned

23. Problem Statistical investigation cycle Has at its heart a starting point based on a problem. Data driven or Question driven

24. CensusAtSchool h t t p : / / / h t p : / www.censusatschool.org.nz

25. Leonardo da Vinci (1452-1519) was a scientist and an artist. In 1492 he drew this picture. Can you see how the man is standing In a circle and a square? Leonardo thought that The span of someone’s arms is equal to their height. Why do you think he was interested in working out body proportions? Do you think Leonardo’s theories still work today? Are you a Masterpiece?

26. Plan –What variables do we need to collect? –How shall we pose the survey questions. –Who shall we ask / how many? –How will we know when we have asked everyone? –How are we going to record and collect the data?

27. Data cards Leisure activity Arm span No. of members in your family Height Year 1-3 teachers collect this data on yellow cards Year 4-6 on blue cards

28. Brainstorm all possible questions from the available information on the data cards.

29. Problem Question Types Summary (Years 1- 8) –A description of the data, usually a single data set e.g. “What is the most common birth month in our class” Comparison (Y5 onwards) –Comparing two (or more) sets of data across a common variable, e.g. “Do females typically live longer than males?” Relationship (Y7 onwards) –Interrelationship between two paired variables,e.g. “Does watching a lot of TV increase your IQ?”

30. Classifying Sort / classify the questions according to the following categories: Summary Comparison Relationship

31. Category Data Numerical Data Time-Series Data

32. Analysis Make a graph using your data cards that will help you to answer your question. Describe the graph identifying patterns and trends in context. Remember the context. If I cover any labels can I still tell what the graphs are showing?

33. Analysis Use I notice… as a starter for statements. For category variables: (e.g. birth month etc) –Shape –The most common category, the least common category, other categories of interest –Anything unusual, or of interest For measurement variables: (e.g. bed time) –Shape –Spread (difference between lowest & highest values) –Middle group(s) –Anything unusual, or of interest

34. Relationship Question Are you a masterpiece? What is the relationship between your height and arm span?

35. Statistics in the NZC and Standards Highlight the difference in progression from Y1 to Y8 Circle any vocabulary that you are unsure of.

36. Collecting category data using post it notes Leisure activity = Reading

37. Collecting bivariate data using post it notes Leisure activity = Reading Leisure activity = Playing sport GirlsBoys

38. Collecting multivariate data using post it notes What school subject do you most enjoy teaching? What time did you go to bed last night? What school subject did you most enjoy at school as a child? Birth month

39. Analysis : Key words for describing data display ShapeMiddleSpread Clump (s) gap, symmetrical, rectangular, most of the data is, a few points are Same/different The middle of the data is ….. about.., between, higher/lower Close together, spread out, evenly spread, mostly between, less/more spread out than… Describing Categories Most (N.B. “most” must be more than half), least, some, all, more than, less than, more than half, about half, roughly a quarter, a lot, not many, a few, most popular, least popular, most typical, least typical

40. I notice that the most common birth month is August with 5 people in the group. I notice the least common birth months are January and November with no one in the group born in these months. I notice that four months have four people born in them, they are May, June, October and December. I notice that the Winter months have the most people born in them, 12 people. Spring has the least number of people born with only 5 people born then.

41. PAT Y6 Question (time-series data) Emma went for a run from home. She stopped for a while and then walked home. Which graph shows how far from home she was during her journey?

42. Greater Heights (FIO 2-3, pg.4) Dot plots are used to show number data that comes from counting or measuring. 1.What is the same and/or different about the girls’ and boys’ data? 2.How might Ahere’s idea of finding the ‘middle’ help answer Tim’s question “I wonder if the boys are taller than the girls?”. 3.Do you agree or disagree with Ahere’s statement? Support your views with at least three statements based on the data.

43. Useful Websites: http://www.stats.govt.nz/ http://www.babynamewizard.com/

45. Gender: female Age: 12 Height: 155 cm Arm span: 155 cm Travel: walk Time: 10 - 20 Lunch: ran Gender: male Age: 12 Height: 163 cm Arm span: 163 cm Travel: walk Time: less 10 Lunch: ran Resources: www.nzmaths.co.nz (Second tier material, statistics units)www.nzmaths.co.nz www.censusatschool.org.nz Figure It Out Statistics, Data Cards: And remember… 98% of all statistics are made up!

46. E- AsTTle Update: All schools are welcome to access the software Either as a pen & paper test or as an online assessment tool. 1000 schools are presently participating and there is some spaces left to join. There is PD available Classroom management systems are being improved to assist schools with reporting in relation to National Standards.

47. What’s New – Keeping up to date Last week’s announcement- $36m allocation used over 4 years to give special teaching for children, redesign of teacher development. Experts appointed to work with schools E-asttle being recalibrated now (free PD until end of the year) 4 main SMS systems have been enhanced-more still to come. Basic changes are free. Junior assessment tool being trialled at present. Pilot intervention programmes for Accelerating Learning in Mathematics

49. Thought for the day Remember that frequently… The student knows more than the teacher about what he has learned even though he knows less about what he was taught. Just because you’ve taught it doesn’t mean they’ve learned it!