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Adults Do Count. Fiona Allan. Adults Do Count. Aims To think about the effective teaching and learning Maths To enjoy doing Maths!. Let’s do some Maths!. Compare these two equations. What is the same and what is different?. Meeting needs, improving choice.
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Adults Do Count Fiona Allan
Adults Do Count Aims • To think about the effective teaching and learning Maths • To enjoy doing Maths!
Let’s do some Maths! Compare these two equations.What is the same and what is different?
Meeting needs, improving choice Putting teaching, training and learning at the heart of what we do Developing leaders, teachers, trainers & support staff of the future Developing a framework for quality and success Success for All - launched 19 November 2002 Background Policy Coherence and Communications Accelerating Quality Improvement DfES Standards Unit leads on Theme 2, 3 & 6 LSC leads on Themes 1 & 4
Putting teaching, training and learning at the heart of what we do Priority areas phase 1 – Business, Construction, E2E and Science. Priority areas for phase 2 – Mathematics, ICT, Health & Social Care, and Land-Based Studies. Building on the work of phase 1 - delivery undertaken by LSDA, supported by regional and national Standards Unit teams. Priority areas for phase 3 – Modern Foreign Languages, Engineering, ACL, ITT.
The resources were to be • of world-class quality • interactive • developed with practitioners in trials and pilots • They had to contain • activities for learners • CPD resources for managers, teachers and trainers • tutor guides
The resources were to be • part of a national transformation programme. • This programme would have • an unique focus on teaching, training and learning • and would include • a national coaching programme • high quality resources and approaches. • subject specific regional networks.
Research “All students can think hard about mathematics and thus do better at mathematics” Deep Progress in Mathematics 2003
“There are two aspects to low attainment in mathematics: not knowing enough mathematics and not knowing how to learn mathematics.” Deep Progress in Mathematics 2003
“It is vital that society fully recognises the importance of mathematicsfor its own sake, as an intellectual discipline; for the knowledge economy; for science, technologyand engineering; for the workplace; for the individual citizen.”Post 14 Mathematics Inquiry, February 2004
The following makes a significant contribution to high achievement in mathematics: “Teaching that focuses on developing students’ understanding of mathematical concepts and enhances their critical thinking and reasoning, together with a spirit of collaborative enquiry that promotes mathematical discussion and debate”. Evaluating mathematics provision for 14-19-year-olds, (Ofsted 2006)
Teacher(s) stood at the front of the classroom and lectured (Source: Allan 2005)
Lessons were sometimes or frequently boring(Source: Allan 2005)
http://tlp.excellencegateway.org.uk/teachingandlearning/downloads/?#mathhttp://tlp.excellencegateway.org.uk/teachingandlearning/downloads/?#math
Improving learning "When you explain something to someone else then you really understand it." "When you really understand something, you don't need to revise - you've got it for life!"
Learning Mathematics in Context http://tlp.excellencegateway.org.uk/tlp/xcurricula/lmic/ Teaching and learning functional mathematics http://www.excellencegateway.org.uk/pdf/TandLMathematicsHT281107.pdf Mathematics Matters https://www.ncetm.org.uk/resources/12491
Principles for effective teaching • Build on the knowledge learners already have. • Expose and discuss misconceptions. • Develop effective questioning. • Make appropriate use of whole class interactive teaching, individual work and cooperative small group work. • Encourage reasoning. • Use rich collaborative tasks. • Create connections between mathematical topics and the real world. • Use technology in appropriate ways. • Confront difficulties rather than seek to avoid or pre-empt them • Develop mathematical language • Recognise both what has been learned and how it has been learned
Adults Don’t Count https://www.ncetm.org.uk/community/8207
Build on the knowledge learners already have Write down everything you know about Triangles
Develop effective questioning Spread out the fraction cards on the table in front of you. How many questions have you answered in the last few minutes?
Encourage reasoning. Mathematical Moments Topic: Percentages (Encouraging reasoning rather than ‘answer getting’)
Create connections between mathematical topics Write the following numbers at the top of your flipchart paper: 5, 12, 15 Write down beneath the numbers anything which links any two of the numbers. Use mathematical language appropriately and also be imaginative!
…… and the real world Golf Course Measurements
Thinking Through Mathematics “The only way to avoid the formation of entrenched misconceptions is through discussion and interaction. A trouble shared, in mathematical discourse, may become a problem solved.” Wood 1988
Expose and discuss misconceptions 1. Cut out the cards 2. Stick the Always True, Sometimes True and Never True cards on to a sheet of flip-chart paper. 3. Stick each of other cards under an appropriate title card and explain why you have put it there.
Use rich collaborative tasks • Multiple representations • Evaluating statements • Creating problems • Analysing Solutions • Classifying • Tarsia jigsaws and dominoes
Use a Range of Activity Types • Multiple representations • Evaluating statements • Creating problems • Analysing Solutions • Classifying • Questioning • Use of IT • Card activities • Ideas for open questions • Encouragement to develop and extend ideas
Use technology in appropriate ways ICT and Digital Technology used in mathematics teaching
Develop mathematical language Mathematical Moment 2D and 3D shapes (Developing mathematical language)
Make appropriate use of whole class interactive teaching, individual work and cooperative small group work. When? What?
Recognise both what has been learned and how it has been learned What I Learned from Reading the Entire Encyclopaedia A.J.Jacobs
And now …. Look again at the list of principles for effective teaching. Which of these are you going to concentrate on for the rest of this term? Start by focusing on one. When you have embedded it into your practice, choose another one.
Principles for effective teaching • Build on the knowledge learners already have. • Expose and discuss misconceptions. • Develop effective questioning. • Make appropriate use of whole class interactive teaching, individual work and cooperative small group work. • Encourage reasoning. • Use rich collaborative tasks. • Create connections between mathematical topics and the real world. • Use technology in appropriate ways. • Confront difficulties rather than seek to avoid or pre-empt them • Develop mathematical language • Recognise both what has been learned and how it has been learned
And now …. What will you do next week? What will you do for the rest of the term?
Thinking Through Mathematics Fiona Allan