Wednesday, 25 January 2012

Quality Assurance Framework for KS4 subjects

Quality Assuring Departmental Processes
Dave Appleby January 2012

Departmental Quality Assurance dashboards will look like this.



The Output Measures are:
Ø      Relative A*-C: The A*-C percentage pass rate compared to National Average for the subject.
Ø      Relative APS: The Average Point Score per student compared to the Naional Average Point Score for that subject.
Ø      Value Added: Each student’s point score compared with the FFT ‘B’ prediction; averaged across all students for the subject.
Ø      RPI: The Residual Performance Indicator from RAISEOnline.
There are thus two ‘absolute’ indicators comparing our students with national averages and two ‘relative’ indicators comparing our pupils with their own prior achievements.

The input measures are based on the self assessment of the subject leader triangulated against assessments by the line manager of the subject and (where possible) another teacher teaching that subject.

The process of assessing against these input measures should have a number of benefits:
Ø      It will inform the teachers about the new standards expected by Ofsted for an outstanding department, enabling benchmarking.
Ø      It focuses QA on those things which we can actually change.
Ø      It may in itself provide a focus for school improvement if, for example, Homework is the only measure judged Good when all the others are thought to be Outstanding.
Ø      It will highlight where there is a significant discrepancy between the different judgements. This is likely to be the catalyst for deeper scrutiny.
Ø      It will enable SLT to identify in which departments there is good practice.
Ø      It may help explain why students achieve better in some departments than others.

Input Measures
Outstanding
Good
Satisfactory
Inadequate































Evidence can be gathered from Lesson Plans and Schemes of Work

“In schools where teaching is outstanding …. the sequence of lessons and activities is well planned, and teachers use a good range of resources.”[1]

One of the messages hammered home by Ofsted time and again is that teachers must “set challenging tasks, based on systematic, accurate assessment of pupils’ prior skills, knowledge and understanding.”[2] During weaker teaching "insufficient attention is given to the balance and  appropriateness of activities and tasks expected of students during lessons. This approach does not support students’ specific learning needs."[3]
  
An Outstanding lesson plan will show differentiated tasks and activities for different groups of pupils (eg High Prior Achievement Pupils, Median PAP, Lower PAP). A ‘main task and extension’ plan would not normally achieve Outstanding.

Lessons should also be planned from the perspectives of what pupils do, what pupils learn, and how pupils learn, rather from the perspective of what teachers do. Ofsted suggest that in weak schools “the evaluation of teaching is often over-generous, and places too little emphasis on exploring what pupils are actually learning .... focusing rather on the activity of the teacher."[4]

Schemes of work must support teachers so that they can plan lessons which enable teachers to set differentiated tasks of appropriate challenge to the different achievement groups within their class.

Schemes of work might also suggest a range of teaching and learning strategies.


It may be difficult to see exactly how a subject leader can affect what happens in lessons. Nevertheless, this is a key input indicator.

Evidence might be gathered from lesson observations eg during performance management, focus weeks and learning walks.

The following aspects might be evaluated to measure interaction within lessons.


Interaction and dialogue
“Where teaching is outstanding …. the interaction between the teacher and the pupils is positive but challenging .....  teachers take care to build up pupils’ confidence and encourage them to take on new challenges”

One of the key features of interaction and dialogue is rapport. A key skill is questioning.

Challenge
Current thinking as to what constitutes an appropriate level of challenge is based on Vygotsky’s Zone of Proximal Development (ZPD)[5]. The level of demand should be greater than the pupil’s current level so the pupil is stretched and challenged and makes progress but not so far outside their comfort zone that they give up in despair. ‘Appropriate Challenge’ implies differentiated tasks and activities and therefore requires that a teacher knows the learning characteristics of their pupils.

Ofsted characterise insufficiently challenging activities as those that “occupy pupils" and are "not well matched to the needs of the pupils and often based on procedural and descriptive work" including  "an emphasis on low level tasks" and including "an over-use of worksheets and an over-reliance on a narrow range of textbooks"[6]

Observers often use the pace of a lesson as a proxy indicator for challenge. Ofsted suggest that in an outstanding lesson "the pace of learning is well-judged and there is no wasted time in lessons … such as copying out the objectives for the lesson, completing exercises without sufficient reason, or simply spending too long on one activity." [7]

Pupil Engagement
An approximate way of estimating pupil engagement is to look around the class and count how many pupils are paying attention or are on task. Alternatively you could use a description of outstanding pupil engagement such as:
Ø      "There are good opportunities for pupils to make choices, ask questions, find answers, collaborate, listen, discuss, and debate and present their work to their peers so that others can comment....”[8]
Ø      Pupils have “excellent, enthusiastic attitudes to learning.”[9]
Ø      “All the students are involved in the lesson and all contribute in some form.”[10]


Behaviour may be measured during lesson observations. Evidence may also be drawn from departmental Behaviour for Learning policies and procedures.

To achieve Outstanding Ofsted expect that:
Ø      “Pupils show very high levels of engagement, courtesy, collaboration and cooperation” and they are “highly adept at managing their own behaviour in the classroom … supported by systematic, consistently applied approaches to behaviour management.”[11]



Evidence to make a judgement about your department’s ability to achieve assessment for learning and effective feedback could come from shared departmental mark schemes, from pupil exemplar work (including display material), or by sampling pupil books to see how and how often pupil books are marked.

Assessment has two key features:
Ø      It must inform the teacher about what the students have learnt in time for the teacher to modify the learning experience. Ofsted believe that outstanding assessment “clearly identifies pupils’ starting points and understanding, checks progress, establishes what has been learnt and can inform the next steps in learning" rather than assuming that "because one pupil has answered a question successfully, the rest of the class is ready to move on."[12] This requires effective questioning techniques in class; a formalised version is sometimes called Just In Time Teaching (JITT). [13] “Effective assessment within lessons enables pupils to demonstrate their understanding and ensures that teachers can adapt in ‘real-time’" the "direction or pace of learning within a lesson and for particular individuals"[14]
Ø      It must inform the student so that they understand what they need to do to improve. This is feedback. Research summarised by the Sutton Trust[15] found that ‘Effective Feedback’ progressed pupils more than any other factor. Experts suggest that it is best when rationed so that it becomes meaningful. Limit "the amount of feedback so it is actually used"[16]; three comments per essay is the optimum, because if “everything seems to count, everything matters a little but little matters a lot"[17].

Three key features of feedback: "the student must know: what good performance is .... how current performance relates to good performance .... how to act to close the gap"[18].

Some researchers advocate hiding grades because students pay more attention to marks and ignore feedback. [19] "Effective learning can be hampered by assessment tasks that focus student attention on grades and marks or reproductive thinking."[20]

Most people believe that feedback should start with the positive and suggest how it can be improved.

Feedback also needs to be in time to affect future performance!



To achieve Outstanding Ofsted expect that “appropriate and regular homework contributes very well to pupils’ learning.”[21]

Thornburg’s primitive pedagogies model[22] of learning suggests that for deep learning to occur a concept must be learned in each of four ways: the campfire (rather like a classroom with a teacher at the front), the watering hole (a collaborative discussion), the hunting party (where the pupil experimentally tries out what has been taught) and the cave (independent, solitary learning). In the school situation, homework is often the only opportunity for cave learning. Homework reinforces what has been taught and enables a pupil to internalise learning.

Independent learning, which may be exemplified by some forms of homework, is one of the Big Four ideas.


Do the resources available to teachers enable all relevant groups of pupils including boys and girls, all ethnic groups, pupils of the range of academic abilities (including G&T) and prior achievements, EAL pupils, LAC pupils, FSM pupils, LGBT pupils, pupils from low ethnic backgrounds and any other minority groups to:
  • Access learning,
  • Overcome barriers to learning,
  • Close the gap?

Ofsted would mark down lessons that displayed "an over-use of worksheets and an over-reliance on a narrow range of textbooks".[23]

Does the department make creative use of ICT? Pupils should be able to present work as documents, slideshows, images, animations, audio and video recordings. Pupils might make use of blogs for reflective learning and wikis for collaborative learning.  Outstanding pupil work might be published on web pages or as e-books. Pupils might deepen their understanding of concepts using interactive animations and explore ideas using spreadsheets and dedicated modelling software.


Departments use a varied range of pupil support strategies including revision classes, homework clubs, coursework schedules, learning guides, and peer mentoring etc.

These strategies are effective.

Further work

It may be appropriate to add a table recording present performance (on A*-C, APS, VA etc) of the present cohort so that we can track expected achievement rather than always looking at past data.













[1] Miriam Rosen in Ofsted 2010-2011 Annual Report published November 2011 http://www.ofsted.gov.uk/resources/annualreport1011 page 51

[2] The evaluation schedule for the inspection of maintained schools and academies from January 2012 published by Ofsted on 16th December 2011 http://www.ofsted.gov.uk/resources/evaluation-schedule-for-inspection-of-maintained-schools-and-academies-january-2012 page 12

[3] Miriam Rosen in Ofsted 2010-2011 Annual Report published November 2011 http://www.ofsted.gov.uk/resources/annualreport1011 page 54

[4] Miriam Rosen in Ofsted 2010-2011 Annual Report published November 2011 http://www.ofsted.gov.uk/resources/annualreport1011 page 64

[6] Miriam Rosen in Ofsted 2010-2011 Annual Report published November 2011 http://www.ofsted.gov.uk/resources/annualreport1011 page 52

[7] Miriam Rosen in Ofsted 2010-2011 Annual Report published November 2011 http://www.ofsted.gov.uk/resources/annualreport1011 pages 51-52

[8] Miriam Rosen in Ofsted 2010-2011 Annual Report published November 2011 http://www.ofsted.gov.uk/resources/annualreport1011 page 52

[9] The evaluation schedule for the inspection of maintained schools and academies from January 2012 published by Ofsted on 16th December 2011 http://www.ofsted.gov.uk/resources/evaluation-schedule-for-inspection-of-maintained-schools-and-academies-january-2012 page 16

[10] Tony Thornley (2007) Making it Outstanding in Leader magazine Feb 2007 http://archive.leadermagazine.co.uk/article.php?id=623

[11] The evaluation schedule for the inspection of maintained schools and academies from January 2012 published by Ofsted on 16th December 2011 http://www.ofsted.gov.uk/resources/evaluation-schedule-for-inspection-of-maintained-schools-and-academies-january-2012 page 16

[12] Miriam Rosen in Ofsted 2010-2011 Annual Report published November 2011 http://www.ofsted.gov.uk/resources/annualreport1011 page 53

[13] Eric Mazur and Jessica Watkins Just in Time Teaching and Peer Instruction http://isites.harvard.edu/fs/docs/icb.topic666323.files/02-2Peer_Just_in_time_03_Simkins09_C03.pdf

[14] Miriam Rosen in Ofsted 2010-2011 Annual Report published November 2011 http://www.ofsted.gov.uk/resources/annualreport1011 page 53
[15] Toolkit of Strategies to Improve Learning Summary for Schools published 23rd June 2011 http://www.suttontrust.com/research/toolkit-of-strategies-to-improve-learning-technical-appendices/  page 24

[16] Nicol & MacFarlane-Dick 2006 Formative assessment and self-regulated learning: A model and seven principles of good feedback practice Studies in higher Education 31(2):199-218; p209

[17] Hounsell et al 2007 Balancing assessment of and assessment for learning Scottish enhancement themes: Guides to integrative assessment 2 & 3 Gloucester QAA p1

[18] Nicol  & Macfarlane-Dick 2006 Formative assessment and self-regulated learning: A model and seven principles of good feedback practice Studies in higher Education 31(2):199-218; p201

[19] Nicol & MacFarlane-Dick 2006 Formative assessment and self-regulated learning: A model and seven principles of good feedback practice Studies in higher Education 31(2):199-218; p206

[20] Boud 2010 Assessment 2020: Seven propositions for assessment reform in higher education Sydney Australian Learning & Teaching Council

[21] The evaluation schedule for the inspection of maintained schools and academies from January 2012 published by Ofsted on 16th December 2011 http://www.ofsted.gov.uk/resources/evaluation-schedule-for-inspection-of-maintained-schools-and-academies-january-2012 page 13

[22] Thornburg D 2004 Campfires in Cyberspace: Primordial metaphors for learning in the 21st Century International Journal of Instructional Technology and Distance Learning 1:10 available at  http://itdl.org/journal/oct_04/invited01.htm accessed 24th October 2010

[23] Miriam Rosen in Ofsted 2010-2011 Annual Report published November 2011 http://www.ofsted.gov.uk/resources/annualreport1011 

Misconceptions and threshold concepts

This is the text of a talk I gave at Biddenham International School on 24th January 2012.


Threshold Concepts
Dave Appleby 24th January 2012

Be very, very careful what you put into that head,
because you will never, ever get it out.

Cardinal Wolsey

Every time I learn something new, it pushes some old stuff out of my brain.
Remember when I took that home wine-making course and I forgot how to drive?
Homer Simpson

You must unlearn what you have learned
Yoda

We sometimes assume that learning is incremental.  "Students come into the classroom with prerequisite knowledge (existing schemas) and as they progress through their education these schemas are progressively (or sequentially) built upon."[1] But this is not straightforward. If the mental framework of the learner contains misconceptions these must be somehow modified or unlearned in order to accommodate the new learning. “To learn requires facing and embracing differences .... between deeply held ideas and beliefs and new ideas".[2] “The substitution of one theory for another is not as easy as erasing the chalkboard”[3] You can see this writ large in the history of ideas.  "Assimilating a new sort of fact demands a more than additive adjustment of theory.”[4]

Students come to class with mental models full of remarkably tenacious misconceptions. The QI programme derives its rationale from exposing misconceptions. Let’s explore some with this fun Physics True and False quiz.

There was an interval here whilst the audience attempted a Physics True/ False quiz using Certainty Based Marking.

I think one of the reasons that misconceptions are so tenacious is that they give one a false sense of competence. We don’t want to believe that there are some things that we don’t know, especially when we don’t know what we don’t know.

We laugh at Donald Rumsfield even though he is expressing a deep truth.

So how should we correct misconceptions? Academics and teachers agree that the first stage is to make misconceptions explicit. Find out what they know; then tell them they are wrong. For example, if a class believe that clothes keep you warm by making heat (no, they don’t!) you can demonstrate through repeated experimentation that they are wrong.[5]

This can be difficult because human psychologies resist ideas that fail to conform to naïve beliefs. For example, an experienced American Admiral persistently and stubbornly (and wrongly) refused to believe the evidence that Japanese forces were gathering to attack Pearl Harbor[6] despite warnings from Washington, reports of enemy aircraft, hostile ship movements and the sinking of a Japanese submarine just outside the Harbor. Another example is the way that students will fixate on the word "theory" used to describe  Darwinian evolution and contrast it unfavourably with the "truth" of scripture. Even if we do superficially accept the new knowledge, we are likely to forget it.[7]

We are trying to achieve the classic move from unconscious incompetence to unconscious competence. The problem is that we have to confront students with their ignorance and destabilize them before we can begin to progress. Unsurprisingly, being told you are wrong is demotivating.[8]
  
Whether or not unlearning is necessary, it is clear that the process of paradigm change is not easy. Smith et al (1993) point out that confronting students with 'the correct ideas' implicitly devalues their prior knowledge.

At the same time your identity changes from ‘a competent person’ to ‘a complete idiot’; this damages your self-esteem at the very moment that you need that little bit of extra motivation to climb the next hill.

But every time you reach the top of a hill the view …

You can see so much further.

Your horizons are so much wider.

In learning terms there are some concepts that are little more than a stroll in the park and there are others which are steep climbs. The latter are the ‘Threshold Concepts’.[9]  Threshold concepts shift perspective, transforming personal identity; they are irreversible and they reveal "the previously hidden interrelatedness" of the subject.[10] They are Eureka moments.

But they are hard to acquire. The term ‘Threshold’ suggests the irreversibility of passing through a doorway but it doesn’t tell you anything about how hard it is to acquire. A better analogy is the rite of passage when a boy becomes a man in aboriginal societies. Acquiring a threshold concept is "... often problematic, troubling and frequently involves the humbling of the participant .... the transformation can be protracted, over considerable periods of time, and involve oscillation between states, often with temporary regression to earlier status."[11]

So on the one hand threshold concepts are hard to acquire; on the other hand they are the key concepts that you want the students to learn so that they can transform their viewpoints. Here are some examples.

So we have these concepts that are key to progress your understanding of a subject but are very hard to acquire. Quite clearly, they will need more teaching than less key concepts. So when you plan your scheme of work you will have to allow more time for these. So the first thing to do is to identify them.

Armed with our Threshold Concept Identikit we can sleuth through our specifications and identify the Threshold Concepts lurking within.

Long break while teachers seek out threshold concepts within their specifications

OK. Now we have identified (at least some of our) Threshold Concepts we can start seeking strategies to teach them. As I said before, they are likely to take more time for students to understand and to embed that understanding. Of course some students will understand the concepts quite quickly so you must find something for them to do while the others are catching up. You can’t just leave them looking at the new horizon like Stout Cortes but you can give them ideas to explore with their new understanding.

What about the others? You have to be prepared for tears and tantrums. Remember that these Threshold Concepts are battering their self-esteem. It might be useful to work out which kids are going to be able to cope with the assault and which kids might need a lot of support.

Some students will find paradigm change easier than others. Guy Claxton emphasises that powerful learners are resilient: "Resilience is about locking on to learning .... despite the ebb and flow of the different feelings of learning, such as excitement, frustration or confusion".[12] Perhaps we ought to teach Resilience.

According to Carol Dweck, students who believe that intelligence is malleable, who think that they can work harder to understand better, are more likely to keep going in the face of adversity than those who believe that intelligence is fixed. “I’ll just have to try harder” is a more resilient attitude than “I must be stupid.”

So is there anything specific that we can do to help them?  

Some people believe that reflection is important. But solitary, introspective reflection is unlikely to lead to paradigm change. "It can be argued that 'real' reflective practice needs another person as mentor or professional supervisor, who can ask appropriate questions to ensure that the reflection goes somewhere, and does not get bogged down in self-justification, self-indulgence or self-pity!"[13] This is the sort of thing that top quality teachers do despite the apparent belief by some that you only need to show them a video. You can ask the questions face to face in class if you have time or you could challenge by writing comments on their reflective blog.
 
Discussion is an important way for a student to test their ideas. Interestingly, research suggests that overall understanding is enhanced when you have small group discussions with ‘highly dissimilar’ (in terms of prior understanding) students.[14] This is one case where mixed ability seems better than setted classes. Again, discussion can be face to face in a classroom or outside school in a discussion forum on Moodle.

Another strategy is to focus a student’s attention on the discrepancies between the prior knowledge paradigm and the new evidence and encourage the student  to articulate the differences.[15] One way of doing this is to encourage collaborative co-construction of understanding by asking the students to co-operate on writing a wiki page.

Final activity: Take any threshold concept that you have identified from your specification and work out how you are going to teach it. What will you do for the students who have grasped it straight away?  How will you support struggling students? And which strategies will you use to get challenge your students without humiliating them?

References

[1] Thompson F and Logue S (2006) An exploration of common student misconceptions in science International Education Journal 7(4) 553-559 ISSN 1443-1475

[2] Kolb A and Kolb D (2005) Learning Styles and Learning Spaces: Enhancing Experiential Learning in Higher Education  Academy of Management Learning & Education 2005, Vol. 4, No. 2, 193–212 page 207
[3] Watson B, and Kopnicek R (1990) Teaching for Conceptual Change: Confronting Children's Experience in Phi Delta Kappan May 1990, pp. 680-684 available at http://www.exploratorium.edu/IFI/resources/workshops/teachingforconcept.html (accessed 10th November 2009)

[4] Kuhn T, (1996) The Structure of Scientific Revolutions 3rd edn University of Chicago Press, London  page 53
[5] Watson B, and Kopnicek R (1990) Teaching for Conceptual Change: Confronting Children's Experience in Phi Delta Kappan May 1990, pp. 680-684 available at http://www.exploratorium.edu/IFI/resources/workshops/teachingforconcept.html (accessed 10th November 2009)

[6] Sutherland S, (2007) Irrationality Pinter & Martin, London 978-1-905177-07-3 pages 95-97

[7] Lyndon (2003) The Conceptual mediation program workshop handbook available at

[8] Atherton J S (2009) Learning and Teaching; Resistance to Learning [On-line] UK: Available: http://www.learningandteaching.info/learning/resistan.htm
Accessed: 5th December 2009

[9] Meyer J and Land R (2005) Threshold concepts and troublesome knowledge (2): Epistemological considerations and a conceptual framework for teaching and learning in Higher Education 49: 373-388

[10] Meyer J, and Land R (2003) Threshold Concepts and Troublesome Knowledge: Linkages to Ways of Thinking and Practising within the Disciplines Occasional Report #4 ETL Project School of Education, University of Edinburgh, Edinburgh page 4

[11] Meyer J and Land R (2005) Threshold concepts and troublesome knowledge (2): Epistemological considerations and a conceptual framework for teaching and learning in Higher Education 49: 373-388 page 376

[12] Claxton G, (2002) Building Learning Power, TLO Limited, Bristol 978-1-901219-43-2 page 19

[13] Atherton J S (2005) Learning and Teaching: Reflection and Reflective Practice [On-line] UK: Available:
http://www.learningandteaching.info/learning/reflecti.htm Accessed: 26th October 2008

[14] Bennett J, Lubben F, Hogarth S, Campbell B (2004) A systematic review of the use of small-group discussions in science teaching with students aged 11-18, and their effects on students’ understanding in science or attitude to science in Research Evidence in Education Library. London: EPPICentre, Social Science Research Unit, Institute of Education.

[15] Lyndon (2003) The Conceptual mediation program workshop handbook available at