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EI505
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EI505 Computing and Contemporary Developments
NC 2014 UpdatePrimary Mathematics 1
11th Feb 2014Diana Brightling
Session structure
• Revisiting EP104 and reflections on teaching maths on 1st placement
• Key features of primary mathematics in the new national curriculum
• Progression in arithmetic (NC 2014)
• Implications for EI505 Assignment
Looking back at Year 1…………
• Key learning from EM402
• Key learning from practical experience of teaching maths on placement 1
Relational and Instrumental Understanding
• Relational understanding is….”what I have always meant by understanding: knowing both what to do and why.”
• “Instrumental understanding I would have until recently not have regarded as understanding at all. It is what I have in the past described as ‘rules without reasons’ without realising that for many pupils and their teachers the possession of such a rule, and the ability to use it, was what they meant by understanding.”
Skemp, R. (1976) “Relational understanding and Instrumental understanding.” Mathematics Teaching, 77, pp 20-26.
Bruner’s modes of representational thought
enactive
iconic
symbolic
The child needs experience at all
three levels
Text provides experiences at
only the two most
sophisticated levels
Delaney, K, (2001), ‘Teaching Mathematics Resourcefully’, in Gates, P (Ed), Issues in Mathematics Teaching, London: Routledge Falmer (available as an e-book)
Where are we now?
• The new national curriculum for Year 3, Year 4 and Year 5 will come into force from September 2014.
(Current NC has been disapplied for these cohorts)
• The new national curriculum for Year 6 will come into force from September 2015.
The ‘old’ National Curriculum
Attainment targets:• Ma1: Using and
applying mathematics• Ma 2: Number• Ma 3: Shape, space
and measures• Ma 4: Handling data
The ‘new’ National Curriculum 2014
Number – and place value– addition and subtraction– multiplication and division– fractions, decimals (Y4+) and
percentages (Y5+)– Ratio and proportion (Y6+)
Algebra (Y6+)MeasurementGeometry
- properties of shape- position and direction
Statistics
Some key difference between mathematics in the old and the new NC
• More detailed – and now set out in Year groups. A ‘mastery’ curriculum. NC ‘levels’ have gone
• More ambitious expectations, especially for number.
• Greater emphasis on arithmetic – especially formal written methods
• Almost no mention of problem solving, reasoning or communicating in the Programmes of Study – although these elements are there in the introduction.
The new National Curriculum: Aims 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 the ability to recall and apply 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.
Catering for the needs of all pupils….
The expectation is that the majority of pupils will move through the programmes of study at broadly thesame pace. However, decisions about when to progress should always be based on the security of pupilsunderstanding and their readiness to progress to the next stage. Pupils who grasp concepts rapidly should be challenged through being offered rich and sophisticated problems before any acceleration through new content. Those who are not sufficiently fluent with earlier material should consolidate their understanding, including through additional practice, before moving on.
Excerpt from NC 2014 mathematics programme of study (p100)
Information and communication technology (ICT)
Calculators should not be used as a substitute for good written and mental arithmetic. They should therefore only be introduced near the end of key stage 2 to support pupils’ conceptual understanding and exploration of more complex number problems, if written and mental arithmetic are secure. In both primary and secondary schools, teachers should use their judgement about when ICT tools should be used.
What does this mean?
Are we allowed to use
calculators in primary schools and if so when and what for?
What is the progression through the four operations, from mental strategies to
compact written methods?
Sort the cards, putting the images in order of progression. Consider:• Is any stage missing?• How each method relates to the National
Curriculum 2014 calculation strand• Where are the tricky transition points? Why?• Which key resources support understanding by
clearly modelling the method?
Key principles in supporting the development of written calculation methods
• Mental calculation confidence should be established before written methods are introduced
• Mental calculation strategies need to be specifically taught• We need to carefully structure progression into written
methods to ensure each new method builds on understanding• Children need to be encouraged to make decisions about which
method to use and when• Opportunities to apply and problem solve with calculation skills
and strategies should run alongside practice of them• We need to ensure that we use resources to support
understanding of how methods represent number quantities
New ‘Mathematics Education’ Area of studentcentral (within ‘My School’ area)
https://studentcentral.brighton.ac.uk/webapps/portal/frameset.jsp?tab_tab_group_id=_314_1&url=%2Fwebapps%2Fblackboard%2Fexecute%2Flauncher%3Ftype%3DCourse%26id%3D_25291_1%26url%3D
• A range of resources to support teaching and learning
• E.g. Screencasts
• NS ‘Strand’ documents
x 3
10 200
24
Which two numbers have been multiplied together in each grid. How do you know?
Problem solving with the grid method
Multiplication grid ITP
TARGET >300
x >300
Shuffle some digit cards and make a stack. Turn over one card at a time and decide together where to put it. Will your product be more than 300? Five points if it is. How do you know? When do you know? Use grid method to calculate the answer.
Play against or with a friend
4 68 7
5 3
Division Practice
• Look at the numbers in the yellow cloud and the numbers in the blue cloud.
• Choose a number from each cloud and create a division calculation
• Solve the calculation by chunking on a number line or using written chunking
• See next slide for options
245 642 563 126246 487 623 399 280
450 266 511 188 216 160
Division practice optionsOption 1:• What remainder do you get when
you have divided your numbers?• Put a cross or counter on the grid
to match this remainder. Can you get three crosses in a row?
Option 2:Work with a partner to solve some division calculations using the cloud numbers
What do you notice?
How can you make your chunks efficient? (use the smallest number of chunks)
What makes the answer smaller or larger?
Can you predict if you will have a remainder and how much this remainder will be?
1 4 3 2
3 1 5 6
2 3 2 1
Menu You have won a prize in a competition – a free meal at your favourite pizza restaurant! You want to gain the most possible from your £20 prize but cannot spend more than this amount.Which choices would you make if you choose one each from the following:• Starter• Main course• Desert• Drink?
Considerations for your assignment?
Follow up from this session:• Revisit and update your primary maths tracker –
especially the action plan (and upload this to your e-portfolio, tagging it to TS3)
• Familiarise yourself with the resources in the Mathematics Education area of studentcentral
• Familiarise yourself with mathematics programme of study for KS2 in the 2014 National Curriculum and English specialists – consider possible content choices for your assignment.