Teaching approaches: Language
From OER in Education
- Active learning
- Applying and consolidating
- Argumentation
- Assessment
- Classroom management
- Collaboration
- Curriculum development
- Curriculum planning
- Dialogue
- Differentiation
- Discussion
- Drama
- Exploring and noticing structure
- Games
- Group talk
- Group work
- Higher order
- Homework
- Inclusion
- Inquiry
- Introduction
- Investigation
- Language
- Learning objectives
- Mathematical thinking
- Modelling
- Narrative
- Open ended
- Planning
- Planning for interactive pedagogy
- Planning for professional development
- Posing questions and making conjectures
- Questioning
- Reasoning
- Reasoning, justifying, convincing and proof
- Scientific method
- Sharing practice
- The ORBIT Resources
- Thinking strategically
- Visualisation
- Visualising and explaining
- Whole class
- Working systematically
Relevant resources
| Astronomy | It's full of stars | |
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Using a telescope and considering how those early astronomers may have worked Astronomy(topic) has been practiced for centuries and doesn't require expensive equipment! This first session aims to train the whole class(ta) to use a telescope and, hopefully, to provide an opportunity to engage in some active learning(ta). The lesson includes some naked-eye observations and describes how modern technology helps scientists know where to look. You can explore the scientific method(ta) and language(ta) at this point, using targeted questioning(ta)/differentiation(ta). Students may be able to engage in an inquiry(ta)-based project around this work, perhaps for homework(ta).
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| Astronomy | Recreating the Big Bang | |
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An introduction to the creation of the Universe. This presentation offers a tour of the European Organization for Nuclear Research (CERN) and explains why it is worth spending money on one experiment. It then delves into particle physics, looking at sub-atomic particles to offer analogies for what these particles are. The session focuses on whole class(ta) dialogue(ta) and higher order(ta) thinking skills as well as exploring scientific language(ta). This 4th session and the 5th are together the most theoretically complex and they present challenges to young peoples world views. As such they are led as much by their questions(ta) as by the presentation.
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| Blogs | Getting a buzz out of blogging | |
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| CPD | Establishing Purpose for Writing | |
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Why do we have to write it down? Thinking about why we write... This resource highlights some key types of text, and asks teachers to think about the key texts and language(ta) in their own subjects, and how tasks can be well designed to illicit purposeful writing in their classroom practice. Teachers should consider learning objectives(ta) for purposeful writing.
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| CPD | Subject Specific Vocabulary | |
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What's that word? Thinking about the language used in your subject This resource highlights the importance of subject-specific vocabulary(ta) and its consideration in teaching as well as offering some practical tips for encouraging its effective use, and remembering in classroom contexts.
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| Environment | Our Living Environment | |
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Wise up on ecology This study module, an online booklet, deals with the particular ways of thinking about and studying of the environment. It is a useful homework(ta) resource to encourage pupils to engage with key scientific vocabulary(ta) and use their knowledge of the scientific method(ta) to engage with inquiry(ta) learning.
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| Force | Force in the early years | |
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Thinking about the language of force This lesson idea highlights the scientific language(ta) around the topic of force, and through group work(ta) and whole class(ta) dialogue(ta) engages pupils in inquiry(ta) and the scientific method(ta) surrounding force.
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| Genetics | How DNA is sequenced: the stages | |
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The complexity and scale of genome sequencing Students match diagrams of the stages of DNA sequencing with a list of text descriptions of the process. The lesson can involve students discussing in pairs / group work(ta), followed by a teacher or student-led plenary. Students would share ideas, come to a consensus and check the ‘whole class(ta) response’ with their version. The teacher's questioning(ta) can focus on scientific method(ta) and use of scientific language(ta). The lesson idea provides opportunities for the effective use of assessment(ta).
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| Genetics | Human Genome Project: from Sequencing to Sharing Genomic Information | |
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Discuss and share economic, political and ethical issues. This resource provides guidance on how to use whole class(ta) discussion(ta) and/or small group work(ta) to engage students with the science and the economic, political, ethical(topic), legal and social issues of a scientific project such as the HGP. Its focus is on the scientific method(ta); language(ta) and the nature of scientific inquiry(ta).
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| Graph | Variation of human characteristics - Visualising Class data | |
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A big survey of ourselves, measuring hands, feet and more The lesson offers the opportunity to explore measurement, relationships between measurement, and ways to visualise and summarise this data. The use of ICT(i) allows the teacher to enter data and for pupils to immediately see the impact this has on the pie chart and frequency tables (which are automatically updated). This also allows the teacher to change the 'range' for the frequency counts, and discuss with pupils the impact of this on the pie chart, and whether this is a good representation - encouraging the use of mathematical language(ta) and scientific method(ta) throughout. In collecting the data pupils have opportunity for some self-directed group work(ta) - to measure various lengths as described below - and the teacher could use whole class(ta) questions(ta) to explore the strategies taken to conduct this investigation(ta).
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| Investigation | Persuasive argument and evidence-based conclusions about the best car | |
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Got a new motor? Talk about your investigation like a scientist This activity involving inquiry(ta)aims to develop children’s ability to support their conclusions with evidence. The teacher will model(ta) and encourage the use of the language(ta) that children require to discuss or present their data. The teacher can explain their rationale using the lesson below.
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| Learning objectives | Writing Learning Objectives in Primary Science | |
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How are learning objectives supposed to work? How can one achieve mastery in writing learning objectives? This resource encourages teachers to think about ways to link learning objectives(ta) to the curriculum which also helps to conceptualise their teaching schemes. It also helps children to understand what they are learning and what they are aiming for. The resource brings together key ideas, looking at specific outcomes from activities, vocabulary(ta), differentiation(ta), resources and curriculum development(topic) and short term planning(ta). It could be used as a 'refresher' on ideas when planning lessons.
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| Literacy | Developing Language in Primary Science | |
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Language development and the use of appropriate vocabulary(ta) is highlighted as important across the curriculum. Incorporating this consideration into science planning(ta) is important for meeting the target of developing language. The importance of language and talk in science – including through group work(ta), and Whole class(ta) dialogue – is highlighted elsewhere (and in the resource) but includes the ability to explain concepts, understand synthesising ideas (including those from other people and texts), and the need to read and write for different purposes, (including conceptual understanding, data presentation, etc). These are key ideas in communicating the scientific method(ta) | |
| Living things | Classifying and organising living things using images | |
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Find different ways to classify living things This lesson offers opportunities to explore ways to classify living things as well as characteristics which might be relevant, and how to address difficulties that may arise when trying to classify things in this way. The activity may be enhanced by the use of ICT(i) software (e.g. Picasa) but could be carried out with paper-based resources.
This lesson presents a good opportunity for small group work(ta) and some inquiry(ta) into how we classify; and why some classification methods might be more useful, or more scientifically interesting than others. There is also a good opportunity to use different sorts of questioning(ta); to encourage pupils to question each other; to engage in peer assessment(ta) and to focus discussion(ta) on the scientific method(ta) using key vocabulary(ta). | |
| Modelling | Modelling Scientific Writing | |
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How do we help pupils to express themselves adequately when they write? This resource discusses methods for modelling(ta) scientific writing, and the structure and kinds of language(ta) used in such writing. It provides exemplars and suggests activities to assist teachers to apply these methods to their own practice.
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| Patterns | Exploring Pattern | |
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Exploring patterns in mathematics Each chapter of this tutorial highlights the study skills(topic) required to work through the real world examples and activities given. There are problems to be solved, some of which involve higher order(ta) thinking skills (for example, being asked to correct a set of instructions), and all of which encourage the use of mathematical language(ta) and mathematical thinking(ta). The resource could also be used in class, or as a useful homework(ta) pack.
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| Polygons | Exploring properties of rectangles: Perimeter and area. | |
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Do two rectangles that have the same area also have the same perimeter? A problem to inspire higher order(ta) questioning(ta) especially in whole class(ta) dialogic teaching(ta) encouraging pupils to engage in mathematical thinking(ta) and language(ta). You could use Geogebra(tool) in this investigation, as an example of same-task group work(ta).
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| Progression | Progression and questioning techniques in primary science projects | |
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Measuring force and measuring progress. This resource provides an overview of the Year 6 scheme of work - 6E Forces in action and includes some experiment examples. The experiments could be run in class, with increasingly advanced objectives(i) including students' use of language(ta), the factors they discuss, the way they use equipment, assessment(i), etc. This resource can work as standalone lesson ideas / science projects /inquiry(i), or to illustrate progression of concepts through a scheme of work or curriculum planning(i) document.
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| Reading skills | Reading and discussing popular science articles | |
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Read. Get the world's view and see how science works for real The resource relates to the importance of:
It can be delivered through a combination of homework(ta) (perhaps to find an interesting article), group work(ta) to explore various articles (perhaps in a carousel), and/or use of ICT(i) including PowerPoint files to encourage students to present an area they are interested in. | |
| Reading skills | Developing Reading | |
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| Sampling | Sampling techniques to assess population size | |
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| Standard Index Form | An Introduction to the Standard Index Form | |
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Working out the rules according to which a calculator displays large numbers The Standard Index Form is a key idea for mathematicians and scientists. The notion that we choose to write numbers in this way requires some explanation. So in this activity, pupils take part in an investigation(ta) on how standard index form works. This is a higher order(ta) problem solving context where students are encouraged to engage in mathematical thinking(ta). They may be involved in whole class(ta) or small group work(ta) discussion(ta), so they have a good opportunity to practice using mathematical language(ta) and questioning(ta).
This means that students do not need to be able to explain their ideas in full: they can use the calculator's feedback to discover whether their ideas are correct or not. This is also an exciting way for pupils to realise an initial idea that fits the data may need to be extended when new data arises. This resource therefore aims to develop investigative skills, as well as introduce pupils to standard index form in a memorable way. The pupils can later use their knowledge of indices in discussion(ta) and group talk(ta) as they explain what is happening. | |
| Statistics | Cubic Equations and Their Roots | |
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To interactiviley explore and understand complex mathematics with GeoGebra This lesson features a ‘real life’ example for students to explore using visualisation(ta) via GeoGebra. The focus on ‘real life’ increases student motivation.
The activity engages pupils in group talk(ta), mathematical thinking(ta) and vocabulary(ta). This open ended(ta) task encourages higher order(ta) thinking, and encourages whole class(ta) discussion(ta)/questioning(ta) and inquiry(ta) projects. | |
| Writing | Developing Writing | |
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Understanding the importance of writing This resource is a larger DfES document on writing(topic) and language(ta) development, from which more focused resources (including Establishing Purpose for Writing) are drawn.
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