One of a number of tried and tested technique for teaching work that students learners find hard to learn found in teaching tricks and tips
Making any problem more concrete makes it take less working memory - and that is one of the best ways of enhancing the learning of low attaining studentslearners.
On this page are a number of examples where we expect our students learners to record on their page, in a concrete way, perhaps with boxes, function machines etc The concrete diagrams will require the student learner to hold less in working memory and so free up enough working memory to continue to solve the problem.
If we as teachers think of a situation in which our working memory isn't sufficient and what we do about this, this will help in our teaching. At every step of problem solving we could think, what am I remembering? and would all my students learners be able to hold all of this in their heads, without something slipping out?.
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However how about 6 people? ... 11 people ... probably not, so what we do is make a list - we have now "freed up" our short term memory and can now concentrate on getting the correct drinks ordered /milk and sugar in the correct mugs.
low attaining
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learners in maths have less working memory than their peers
I personally suspect that smaller working memories and shorter long term memory retention is causal to low attainment ... but I don't know any way to prove this (ethically) than try to improve low attaining students learners effective memory capacity and strategies to increase long term memory intention. True or not, giving students learners strategies that need less working memory, enables better attainment outcomes.
Giving students learners more concrete methods "frees up" working memory to enable more available to concentrate on the rest of the maths problem (the rest of the maths problem is often the numeracy aspect). More concrete methods will generally make students learners more accurate.
One of the problems with giving more concrete methods is that it often goes against giving "paper saving methods", which have come to be considered to be standard methods (for more on this see the long multiplication and long division sections below).
The plan for this page is to build up examples and include links to "teaching Higher work to Foundation studentslearners" videos or student learner "remind-me" videos. For now though here is a list of situations where we have found asking students learners to make it more concrete has helped.
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An abstract notion such as ratio is because it is hard to "hold on to mentally" so takes up a lot of working memory (of course it is also hard because it involves multiplying, dividing and finding a scale factor) - so enabling students learners to have a concrete model which they can put on the page, and not need to hold in working memory is hugely beneficial. With the problem
ratio: £48 3to 5 (remove this picture once video is available)
Note we encourage students learners to draw out the ratio as boxes and label the boxes - moving from the abstract to the concrete.If we further provide a rational as to why Eva gets less than Francis (such as Eva worked for 3 hours and Francis worked for 5) then we have removed that worry form our students learners minds. Now we have "freed up" working memory so students learners can concentrate on solving the rest of the problem.
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