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== Why Group Talk Matters ==
{{:The educational value of dialogie in whole-class work|transcludesection=DialogicTalk}}
== What Do Pupils Think of Group Talk? ==
{{:Group Talk in Science - Research Summary|transcludesection=PupilAttitudes}}
== What Does Group Talk Look Like? ==
{{:Group Talk - Benefits for Science Teaching}}
{{tag|Pedagogical Strategies}}
{{tag|Pedagogical Strategies}}

Revision as of 13:50, 20 August 2012

Why Group Talk Matters

The educational value of dialogie in whole-class work

What Do Pupils Think of Group Talk?

Consider the research

Cognitive and emotional development

Lev Vygotsky (1973) believed that it was children’s interaction with others through language that most strongly influenced the level of conceptual understanding they could reach. He believed that we can learn from others, both of the same age and of a higher age and development level. One of the main ways this operates is through scaffolding in the zone of proximal development. This concept refers to the gap between what a person is able to do alone and what she or he can do with the help of someone more knowledgeable or skilled than him or herself. It is here that the role of teachers, adults and peers comes to the fore in children’s learning. They can help bring the child’s knowledge to a higher level by intervening in the zone of proximal development by providing children’s thoughts with so-called scaffolds (small planned steps of support), which once the learning process is complete are no longer needed by the child.

His work has gone on to influence the thinking behind the CASE (Cognitive Acceleration though Science Education) and CLIS (Children’s Learning in Science). Materials written to support CASE Adey et al (1989) which promote the ideas of social construction (where learning takes place between members of a group) and metacognition (thinking about one’s own thinking). The success of CASE methods in getting pupils to work in groups and resolve conflict is well established and these ideas can and have been successfully adapted for use at Key Stage 4 or post-16, for example, Moran and Vaughan (2000), and into the primary curriculum.

The influential writings of Daniel Goleman (1996) also highlight the importance of working in groups as a life skill, and one which is dependent on the emotional intelligence of the group members. He argues that schools have a key role to play in this aspect of the development of the whole person.

Pupil attitudes to group talk and argument

  • Pupils moving from primary to secondary classrooms are quoted in a recent study by the DfES (Curriculum continuity, 2004): ‘You were expected to work as a group’ (primary); ‘There is less group work; teachers often expect you to work individually’ (secondary); ‘There were group work rules such as taking turns, having a chair, a scribe and a timekeeper’ (primary); ‘We only have group work rules in English’ (secondary).
  • In their study of pupils’ attitudes to their science education, Osborne and Collins (2000) reported how pupils they interviewed ‘appreciated teachers who were willing to engage in ‘discussions’’ and who allowed pupils to contribute. Some pupils equate ‘writing’ in science with ‘work’, with practical or discussion work seen as more engaging and providing welcome variety.
  • Matthews’ (2001) project involved pupils working in small groups of varying gender mix where they are asked to reflect on their own and others involvement in group talk. He concluded that, when combined with feedback discussions, collaborative learning in the pupils studied can lead to pupils getting on better and helping each other with their learning, and that this leads to pupils liking science more and being more likely to continue with it in the future.

The emphasis in Shakespeare (2003) is to provide stimulus for argument and then provocation to continue to defend or alter one’s views in such a way that there is an emotional involvement in the science and thus greater motivation to resolve the dispute. This was supplemented by examples of phrases seen to work well in class that sustain and enhance the responses provided by pupils. In a later project, funded by Wellcome Trust and DfES entitled Running arguments? – teacher skills for creative science classrooms, D. Shakespeare, S. Naylor and B. Keogh worked with Bedfordshire teachers from Key Stage 2 to post-16 on the skills needed to run arguments in lessons. Pupils’ opinions were sought as teachers changed their practice and behaviour in class and included reference to the positive attitudes pupils developed towards regular changing of groups and the chance to work with others, including the making of new friendships. Only a small minority reported a dislike for group discussion.

Managing group talk and the effect of teacher behaviour

Through extensive studies of teacher and student behaviour in lessons, Kress et al (2001) illustrate the importance of teacher action in the class that helps pupils make sense of the science. Further, writers such as Robertson, and Neill and Caswell, have studied the importance of teacher behaviour and non-verbal communication and the influence on pupils’ involvement in lessons. The need to express emotions and enthusiasm is critical to communicate the subject ideas in a lesson and non-verbal aspects are critical. As part of identifying role behaviour in pupils in science, they also identified how pupils in practical work adopt roles such as the collector (gets the equipment), connector (puts it together and dominates proceedings) and observer (mostly passive), where the distance to the centre of action was important in determining the role adopted. These ideas can be applied to group talk, making the seating and orientation of pupils very important. Although based on a study of group seating in primary schools, Hastings and Chantrey Wood (2002) conclude that ‘there is a strong pedagogical, empirical and essentially intuitive case for arranging the physical environment to support the attention and activities that a task requires …’ and suggest that ‘… involving children in changing from one to another is a viable modus operandi’. A similar case can be made for secondary age pupils.

The use of Ground Rules has been explored by an Open University team led by Professor Neil Mercer since the late 1980s, studying talk in lessons. Where pupils are engaged in productive talk in lessons, teachers agreed a set of ground rules for talk, making the purpose and value of talk in lessons explicit to pupils and how and why to engage one another in lessons.

Development of scientific argument

Osborne ran the IDEAS project which culminated in 2004 in materials and ideas produced specifically for the development of scientific argument in lessons, based on teachers’ and pupils’ experiences and development in class. As well as being a source for ideas for stimuli for argument, it also promotes the explicit development of terminology with pupils: evidence, reasons, facts, persuasive language, etc.

Group talk and assessment for learning

The Assessment for learning Black Box project, as summarised in Black et al (2003) highlights the importance of the importance of questioning, feedback and self- and peer-assessment in developing deeper understanding and ultimately raising achievement in class. The research project, involving teachers changing practice and monitoring the outcomes, involved techniques where small groups were useful if not essential.

References

Thinking Science. The curriculum materials of the CASE project, P. Adey, M. Shayer, and C. Yates (Andover, Hants: Nelson 1989)

Assessment for Learning: Putting it into Practice, P. Black, C. Harrison, C. Lee, B. Marshall and D. Wiliam (Maidenhead: Open University Press 2003)

Emotional Intelligence, D. Goleman (London: Bloomsbury 1996)

Group seating in Primary schools: an indefensible strategy? Paper to BERA Annual Conference, N. Hastings and K. Chantrey Wood (2002)

Multimodal teaching and learning, G. Kress, C. Jewitt, J. Ogborn and C. Tsatsarelis (London: Continuum 2001)

Improving Science and Emotional Development (the ISED project): concerning citizenship, emotional literacy, science and equity, B. Matthews (London: Goldsmiths College 2001)

Words and Minds: How we use language to think together, N. Mercer (London: Routledge 2000)

Introducing CASE methodology at Key Stage 4: an example of bridging, School Science Review, 82 (299), 47–55, J. Moran and S. Vaughan (2000)

Body language for competent teachers, S. Neill and C. Caswell (London: Routledge 1993)

Ideas, evidence and argument in science (IDEAS) project, J. Osborne, S. Erduran and S. Simon (Kings College, London 2004)

Pupils views of the school science curriculum, J. Osborne and S. Collins (Kings College, London 2000)

Effective classroom control, J.Robertson (London: Hodder and Stoughton 1996)

Starting an argument in science lessons, School Science Review, 85 (311), 103–108, D. Shakespeare (2003)

Running Arguments? – teacher skills for creative science classrooms (course materials and final report for the Wellcome Trust and DfES), D. Shakespeare, S. Naylor and B. Keogh (Unpublished)

Thought and Language, L. Vygotsky (Cambridge: MA: MIT Press, 1973)

What Does Group Talk Look Like?

Introduction

What is meant by ‘group talk’ and ‘argument’?

Group talk includes any activity where pupils’ ideas are explored verbally between pupils, even if the final product is written or practical. It includes verbal argument (in this context the word argument is used to describe discussion between pupils who hold differing views) as much as more formal debates (about contentious topics such as genetic engineering). Group talk can be both collaborative and competitive.

Stop and think

Before reading ahead, jot down your first thoughts to complete the following statements:

  1. An activity a science/maths teacher might carry out that could be called a ‘group talk’ activity is …
  2. If the activity was successful, what I would expect to see the pupils doing is …and what I would expect to hear in their conversations is …and what I would expect to see the teacher doing is …
  3. The benefits to the learner of science/maths would be …
  4. A teacher might not use group talk activities, giving reasons, such as …

What does successful group talk and argument look like?

When you take part in productive talk as an adult, you make suggestions and support, modify or clarify others’ views. You challenge ideas, ask questions to seek clarification, summarise and evaluate the pros and cons. You care about your own opinions, but allow others to shape and counter them.

In lessons where productive group talk is taking place you will see pupils discussing ideas with each other independently of, but guided by, the teacher. Pupils will often be turning to face each other, making and maintaining eye contact with others and using animated expressions with their eyes, face and through gesture. They will want to convince others, but will be looking for opportunities to consider others’ views. Words and phrases related to reasoning (such as because, why?, what if ...?) will be used. At times, pupils will be thinking and saying little as they listen to others. The teacher will be aware of the progress of the conversations and intervening without interrupting the flow of the talk. The pupils will be in control of the time taken on a discussion and will be clear on what they are expected to produce as a result of the activity.

When the group talk is over, pupils may have changed their minds at least once. They will be able to explain their current viewpoint and any previous opinions they held, as well as some of the views held by others.

Why do it? What are the benefits to the learner?

  • Higher-level thinking Pupils are challenged to defend, review and modify their ideas with their peers. It encourages reflection and metacognition (thinking about one’s own thinking). Pupils often communicate ideas better with other pupils than with teachers.
  • Assessment for learning Effectively reveals the progress of the pupil to the teacher, encouraging the pupil to self- and peer-assess while allowing the teacher to plan more effectively. As such, group talk complements methods embraced as Assessment for learning.
  • Illustrating science in action Working scientists use group talk – in class it models how they work, supporting the teaching of the ‘ideas and evidence’ aspects of scientific enquiry.
  • Developing the whole child The ability to resolve disagreements is a life-skill.

Pupils become more reflective as they try to arrive at a consensus by expressing different points of view; or work collaboratively to explore ideas, plan and make decisions. Further, it supports the development of literacy.

  • Pupil motivation and emotional involvement When argument is taking place, and pupils are actively prompted and provoked to defend a point of view – by the teacher and by others – it raises the emotional involvement in a topic, so that pupils are more engaged. In essence, they are being encouraged to ‘care’ about the science viewpoint they have, and to take a stand for or against it, even if they concede to others along the way. These features are more common in good English, RE and humanities lessons.
  • Variety and learning styles Can be used as an alternative to written or practical work (for example, experiments), or just listening as the teacher explains and demonstrates. Group talk encourages the use of different learning styles and thus can be inclusive to pupils excluded from more traditional (and often written) activities.

Why is group talk relatively uncommon in science and maths lessons? What are the issues expressed by teachers?

  • External factors Many teachers may feel a pressure to ‘deliver the curriculum’. There is no time in the lesson to do more than impart information. Also, the teacher may be concerned about having evidence of work having taken place (for example, usually something written down in books) – for others in the school, for parents or for Ofsted.
  • Internal factors The teacher may be reluctant to take a risk with group talk because they are afraid that discipline will be a problem. They do not feel comfortable with the apparent loss of control and, as their pupils are not used to being given this level of freedom to express their ideas, they may be reluctant or misbehave. If group talk has been tried in the past it may have been unsuccessful because of a lack of consideration of factors such as classroom layout and teacher behaviour.

When are pupils more likely to engage in group talk and argument?

  • when seating arrangements and environment are planned in order to facilitate discussion;
  • when the teacher’s language and non-verbal communication are planned in advance in order to promote pupil confidence in the stimulus material for group talk;
  • when the teacher withholds their opinion, or the answers for longer than usual;
  • when groupings are chosen by the teacher, and are regularly changed;
  • when timings are specifically used and usually kept short;
  • when group talk is used regularly and becomes part of everyday science lessons.

It is the teacher skills of running group talk that require the most effort to develop and are the focus of this unit. Once developed, they can then be used with little preparation on the part of the teacher, allowing them to be a regular feature of lessons.

The ideas presented in this unit complement those in the resources Questioning and other resources in the

Watch the video sequence 1. This shows a science teacher giving her reasons for using group talk and argument

Now, revisit the STOP THINK questions you answered earlier.

Has your thinking changed? If so, in what way? If not, which ideas have been reinforced?

Why use group talk: a teacher’s perspective

Think of a class you are going to teach next week that might be amenable to this way of working.

Warn them that you are going to try something different with them next lesson. Plan for a plenary activity which will encourage group talk. For example, pose a question such as ‘How does the density of the particles in water change as ice melts?’ Give the pupils two minutes think time, then ask them to pair up and come up with a consensus model to explain what they think is happening. The pairs should then be instructed to convince another pair that they have the best model. Some of the models are then shared with the rest of the class.

Or this might be by setting them a contentious question that they have to answer by the end of the lesson.

Make sure that you leave sufficient time to do the activity justice.

Evaluate how successful the activity was. If you feel that you could have organised the plenary differently, then make a note of this for next time.

Try an activity

Watch the video sequence 2 where pupils are engaged in productive group talk without the need for teacher intervention.

Make a list of the pupil behaviours that can be seen which promote group talk, for example, the way the pupils face each other and the way they question each other.

Read Group Talk in Science - Research Summary. Use a highlighter pen and mark those reasons for the promotion of effective group talk which are the most important for you in your lessons.



Pedagogical Strategies(i)