Thoughts on GCSE Science Module Results

For students on the new GCSE science courses this may be the time at which they get some fairly pointed feedback about the progress they’re making. Yes – the release of the first set of module test scores. There’s usually a bit of bumpiness when a new course comes out – teachers need to find their way around it and the marks sometimes take a bit of a hit until things settle down. It’s a time for steady nerves and taking a longer view. In any case, surely, if the raw scores drop nationally the norm referencing kicks in and the grade boundaries drop. Most people will get what they deserve.

Well, we’re certainly getting the wobbliness. One awarding organisation’s science subject advisor indicated on their website “we understand your concerns and anxieties about these results” – as a general comment that can only suggest that some of the results are not that great. For some candidates this might not be a bad thing – they may need to realise that good results won’t fall into their laps like ripe apples. For others it won’t have helped – what they most needed at this stage was a bit of a boost.

However, there’s another possibility – it won’t all fall into place at the end. Unlike the ‘romcom’ movie in which we know that the star crossed lovers, despite fallings out and misunderstandings along the way, will end up with satisfied smiles as the credits roll, there might be a different plot device working here. ‘The Independent’ reported on February 22nd that Michael Gove had declared that “more teenagers would fail their GCSE and A levels after a radical toughening of the examinations system.” The article went on to say that exam questions would be made harder “in a drive to restore confidence in the system and improve standards”. The paper’s prediction that it would take three or four years to have an impact may be woefully inaccurate if this is what’s happening with this year’s ‘core’ science GCSEs.

Now this raises some interesting questions. Of course standards should be improved. Is anyone arguing for them to be lowered? But does a system inspire more confidence if fewer people pass the exams? This depends upon what one sees the purpose of the exams as being. If it’s to recognise success and more students pass them shouldn’t we be pleased – after all, wouldn’t this mean that the education system is improving? If more children pass their Grade 5 Clarinet exams we would probably assume that standards of music tuition are improving and should celebrate. If, however, it’s to identify relative performance and to see who’s best then we should expect a significant number of failures. The F.A. cup is worth winning because most teams don’t win it.

If this year does turn out to be the year in which the slight year on year increase in A*-C grades stumbles it will be a bitter pill. Many schools have, very reasonably, come to see GCSEs as a near-universal offer for students. Over three quarters of students leave with at least five GCSEs (or equivalent) to Grade C and over half overall have both English and Maths in that combination. This means that for lots of students it’s a realistic aspiration and an indication of academic success.

Maybe this is unduly alarmist and, come the summer, the normal grade distribution will apply and show little overall variation (though the fortunes of individual schools may rise and fall behind the headline figure). However, if there is a fault line opening, maybe we’ve had the first tremors.

Ed Walsh

Advisor, Cornwall Learning

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Improving student writing for Extended Response Questions in AQA GCSE Sciences

The last twelve months or so have affected many people in many different ways.  Apart from the appalling death toll and the long-term effects on the health of many others, the control measures put in place have changed the way that schooling has worked for entire cohorts.  The Extended Response Question resource I edited for Collins turned out to be a lockdown publication in more ways than one.  Though conceived prior to the pandemic, much of the writing was done during the first lockdown.  Although designed for use in a conventional classroom setting, it has much relevance for the situation we now find ourselves in. This article outlines why good literacy is a key skill in science, and how you can help develop your students' extended writing to successfully tackle extended response questions in AQA GCSE Sciences. Why is literacy important in science? There is a long and not always easy relationship between science education and the development of literacy skills; extended response questions are probably at the sharp end of this.  Should the preparation of candidates to deal with ‘six markers’ be seen as a further burden on students and teachers and one peripheral to the central business of developing scientific knowledge and understanding? Is it seen as a key skill of a scientist to be able to construct a longer explanation? Is it best to simply be pragmatic and accept that it’s there in the exams and is worth a not insignificant number of marks? One of the hallmarks of the last year has been the high profile given to scientists, some of whom have become regular guests on news programmes and many of whom have acquitted themselves well not only in terms of the grasp of their specialism but also their ability to explain complex ideas.  This is not new of course; I would argue that it is part and parcel of being a scientist to be able to construct a longer response.  Being able to describe a procedure, compare two different approaches, or evaluate an idea is in the job description. Furthermore, many teachers have come to realise that getting students to write longer responses has a value that goes beyond simply demonstrating a competence in dealing with that type of question.  It shows whether they have understood ideas in more detail, can use key terminology in context and draw ideas together from different parts of the course. How can I improve my students’ extended responses? The AQA GCSE (9–1) Extended Response Questions Teacher Response Pack was written to offer teachers a way forward in three main ways:  The first was responding to the immediate situation if there are students in Year 11 who are underperforming and need both practice and guidance. We’ll soon know how these students will be assessed for the purposes of awarding grades this year and items like this may well figure large.  For some students, it’s more opportunities (so we’ve included dozens of such questions) and for others, it’s an unpacking of the command words.  Because AQA now use the same level descriptors each time a certain command word is used, students can be trained to respond accordingly.  An evaluate question needs a judgment, for example, and the candidate who doesn’t include one cannot get full marks. The second purpose is a more strategic view over the GCSE courses and a desire to integrate the use, both of the questions and ideas, about how to explicitly teach the skills of response over the duration of the course. The third is to support the view that it needs to be an even longer-term strategy.  We progressively develop practical skills and cornerstone concepts such as the particulate model of matter over five years; we should do the same with the skills of constructing longer responses. The constituent aspects of focusing on key terminology, quality sentence construction, and the organisation of text will serve students well on a number of fronts.  What some of our students need is repeated exposure to language and ideas.  We need to get them to not only think like a scientist but also to write like a scientist, and that won’t happen in the six weeks prior to an exam. How can I use this resource with my students? Twenty years in teaching and almost as many in curriculum development have taught me how inventive and creative teachers are (and have to be) in terms of devising approaches and developing ways of developing student competencies.  What we’ve done with this resource is to offer a toolkit.  There is a range of materials in there.  For each question, there is a model answer that would get full marks and another that would get some of the marks.  These are designed to present to students to develop their capacity to recognise improvements.  We’ve included commentaries as well, to support teachers to see what examiners will look for. The feedback we’re getting is that this lends itself to use in a range of ways, including learning at home.  In a recent interview in the Financial Times, Professor Sir John Holman (author of the Good Practical Science report) expressed the hope that the recently raised profile of science would increase interest in STEM careers, but that this would only happen if, principally amongst other factors, the teaching supported it.  Teaching needs to be good, and so do the tools that support it.  Check out the sample pages and see what you think. Watch Ed's talk at the ASE Conference 2021 to find out more about the AQA GCSE (9–1) Extended Response Questions Teacher Response Pack    By Ed Walsh Ed Walsh is a freelance consultant, specializing in science education. A teacher for twenty years and a team leader for twelve of those, he now writes and edits curriculum materials, designs and delivers CPD, and works with science departments to improve the quality of their provision. 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