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The Primary Mathematics Curriculum in the UK with a particular focus on England

The Primary Mathematics Curriculum in the UK with a particular focus on England. Debbie Morgan Director for Primary Mathematics. Background. 1988 The First National Curriculum 1999 National Numeracy Strategy 2000 Revised National Curriculum 2006 Primary Strategy

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The Primary Mathematics Curriculum in the UK with a particular focus on England

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  1. The Primary Mathematics Curriculum in the UKwith a particular focus on England Debbie Morgan Director for Primary Mathematics

  2. Background • 1988 The First National Curriculum • 1999 National Numeracy Strategy • 2000 Revised National Curriculum • 2006 Primary Strategy • 2014 New National Curriculum

  3. TIMSS Table 1.1 TIMSS 2011 performance groups: mathematics at ages 9-10 Source: Exhibit 1.3 international mathematics report

  4. Key Reports • Good practice in primary mathematics: evidence from 20 • successful schools (Ofsted November 2011) • Review of the National Curriculum in England What can • we learn from the English, mathematics and science • curricula of high- performing jurisdictions? • (DfE February 2012)

  5. 20 Successful Schools Report • This report evidenced that many successful schools teach both fluency in mental and written methods of calculation, and understanding of the underlying mathematical concepts.

  6. Review of the National Curriculum Report (DfERR178, 2011) “... there is a wider consensus amongst mathematics educators that conceptual understanding, procedural and factual fluency and the ability to apply knowledge to solve problems are all important and mutually reinforce each other.......... Within this there is also broad consensus that automatic retrieval of basic facts facilitates the solving of more complex problems.” 6

  7. The Aims of The New Curriculum in England • The national curriculum for mathematics aims to ensure that all pupils: • become fluent in the fundamentals of mathematics, including through varied and frequent practice with increasingly complex problems over time, so that pupils develop conceptual understanding and are able to recall and apply their knowledge rapidly and accurately • reason mathematically by following a line of enquiry, conjecturing relationships and generalisations, and developing an argument, justification or proof using mathematical language • can solve problems by applying their mathematics to a variety of routine and non-routine problems with increasing sophistication, including breaking down problems into a series of simpler steps and persevering in seeking solutions.

  8. The 3 Aims of the New Curriculum in England • Fluency • Reasoning • Problem Solving

  9. Research: the conceptual / procedural debate • Whereas past research and theory have focused predominantly on determining whether procedural or conceptual knowledge develops first (Byrnes & Wasik, 1991; Rittle-Johnson & Siegler, 1998; Siegler, 1991; Sophian, 1997), the acknowledgement that mathematical competence requires both knowing what to do and why has directed the focus of more recent research onto exploring the integration, and relations between, procedural and conceptual knowledge within mathematics learning and instruction. • Voutsina 2011

  10. The Interrelationship between Procedures and Concepts • Research examining the interrelationship between • understanding and computational skill (that is, between • knowledge of concepts, and knowledge of facts and • procedures in mathematics learning) has indicated that • both conceptual knowledge and procedural proficiency are • fundamentally linked with children’s mathematical • achievement and ability to apply mathematics flexibly in • different contexts • (e.g. Baroody, 2003;Gray & Tall, 1994; Rittle-Johnson & Siegler, 1998 • cited in Voutsina 2011).

  11. Factual &Procedural Fluency Conceptual Understanding INTEGRATION 11

  12. The Knowledge Led Curriculum • 3 Forms of Knowledge • Factual – I know that • Procedural – I know how • Conceptual – I know why

  13. Is there evidence of conceptual understanding? Is there procedural fluency and efficiency?

  14. Sally knows all her tables up to 12 x 12 • When asked what is 12 x 13 – she looks blank • Does she have knowledge of facts, underpinned by conceptual understanding ?

  15. Lets do some MathsHow would you solve these? •  + 17 = 15 + 24 • 99 –  = 90 – 59

  16. Other Principles underpinning the New Curriculum • Close the gap and raise attainment • Providing access to mathematical concepts for all children • Pupils should make connections in mathematics • Use representations to support learning • Deep rather than superficial learning • Calculating with confidence • More and longer time on fewer topics

  17. Raising Expectations

  18. Provision of support and resources • This new curriculum unlike the introduction • of the Numeracy Strategy (1999) has • much less resources accompanying it, • either in the form of training or • documentation. • However the NCETM are providing some • support

  19. NCETM

  20. References • DfE (2012) Review of the National Curriculum in England • What can we learn from the English, mathematics and • Science curricula of high- performing jurisdictions? • Ofsted (2011) Good practice in primary mathematics: • evidence from 20 successful schools • Voutsina, C (2011) Procedural and Conceptual changes in • young children’s problem solving Published online: • Springer Science & Business Media B.V.

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