Sheila Henderson University of Dundee

Uniwersytet Łódzki Why the journey to mathematical excellence may be long in Scotland s primary schools Sheila Henderson University of Dundee The 6th Annual Conference of Teacher Education Policy in Europe 17th 19th May 2012, Warsaw, Poland T E P E 2012

Reasons for the paper Theoretical context Wydział Nauk o Wychowaniu Structure of presentation Mathematics achievement in Scotland Radical reform or business as usual? A three-pronged solution

Reasons for paper New curriculum introduced in Scotland Curriculum for Excellence (CfE) Ongoing concerns about levels of achievement in mathematics Previous studies on student primary teachers levels of mathematics competence and confidence (Henderson & Rodrigues 2008; Henderson 2012) Review of teacher education in Scotland (Donaldson 2010)

Constructivism Theoretical context reform pedagogies around the world mathematical thinking v procedural mathematics increasing teacher autonomy does this deskill teachers? (Henderson & Cunningham 2011) Mathematics knowledge for teaching SMK and PCK (Shulman 1986; 1987) KCS and KCT (Ball et al. 2008) Both require sound subject knowledge

Mathematics achievement in Scotland Scottish Survey of Achievement (SSA) Percentage of children who have well established or very good skills at expected 5-14 levels P3 87% of children have well-established or very good skills at the expected 5-14 levels P7 47% S2 30% (Scottish Government 2009a)

Scotland s mathematics achievement internationally Trends in International Mathematics and Science Survey (TIMSS) Scale average of 500 used (Number) P5 481 (significantly lower) Yet 56% of time devoted to number (50% avge) S2 489 (significantly lower) Yet 36% of time devoted to number (24% avge) Advanced benchmark of 625 P5 significantly lower than 1995 S2 significantly lower than 2003 (IEA 2008)

Radical reform or business as usual? See handout

Table 1 5-14 progression of rounding numbers Level B Level C Level D Level E Level F Round 2-digit whole numbers to the nearest 10 Round 3 digit whole numbers to the nearest 10 (e.g. when estimating) Round any number to the nearest appropriate whole number, ten or hundred Round any number to one decimal place Round to a required number of decimal places and significant figures Adapted from SOED (1991), SEED (1999)

Table 2 CfE progression of rounding numbers First Level I can share ideas with others to develop ways of estimating the answer to a calculation or problem, work out the actual answer, then check my solution by comparing it with the estimate. Second Level I can use my knowledge of rounding to routinely estimate the answer to a problem then, after calculating, decide if my answer is reasonable, sharing my solution with others. Third Level I can round a number using an appropriate degree of accuracy, having taken into account the context of the problem. Adapted from Scottish Government (2009b)

Advised pedagogies Table 3

1. Qualifications More advanced qualifications don t equal teaching effectiveness (Askew et al. 1997a; Ma 1999) More advanced qualifications don t equal greater competence or confidence (Henderson & Rodrigues 2008; Henderson 2012) More in-depth understanding of primary curriculum needed instead? (Burghes 2009)

2. Initial Teacher Education Anecdotal evidence English approach University of Dundee approach Online Maths Assessment Review of teacher education (Donaldson 2010)

3. Continuing Professional Development Maths focused CPD is best (DMTPC?) Longer sessions have more impact Who attends these? (Askew et al. 1997b) MaST programmes Current economic climate

Ambitious aims of CfE Opportunities and challenges Conclusions Success dependent on sound subject knowledge Finally teachers, in spite of courses and workshops, are most likely to teach maths just as they were taught (Ball 1988)

Questions? s.henderson@dundee.ac.uk Paper to be published in Scottish Educational Review May 2012

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