alex fleming (science manager) e: [email protected] pip driscoll (secondary...
TRANSCRIPT
Alex Fleming (Science Manager) e: [email protected]
Pip Driscoll (Secondary Science Consultant) e: [email protected]
The Wilderness Centre
Feb 2010
© Crown copyright 2007
Raising Attainment
© Crown copyright 2007
Launched March 2007
• 582 schools
• 72 LAs
• 15% of secondary schools
Available nationally from May 2008
• 684 schools
• 85 LAs
© Crown copyright 2007
• “Pupils becoming more reflective. I have seen the class becoming more analytical in their thinking and verbal answers. Much better ‘Scientists’ all round...motivating and confidence building. As teachers this project has encouraged us to make skills more explicit rather than expecting the kids just to pick it up by osmosis!...motivating as a teacher to be able to focus on ‘what makes a good scientist’...allowed creativity” –
“Increased awareness of how powerful student voice is.”
“More students
realise the
importance of using
key words in
explanations.”
“More students using key words in own writing and higher level questions.” “Highlighted need
to focus on these skills school wide
and to get students to see these skills as
transferable rather than just for
Science”“Increased focus on skills instead of content.”
“helped to prepare students for GCSE Case Studies.”
What Gloucestershire
teachers say
© Crown copyright 2007
6 main areas preventing progress
• Developing How Science Works• Using models• Understanding misconceptions• Effective group talk• Research skills• Scientific writing
© Crown copyright 2007
Layers and steps
• Steps 1-4 overview
• Steps for each of the 8 strands-strategies
• Teacher guidance for each of 8 strands-strategies and activities
• Resources
© Crown copyright 2007
6 main areas preventing progress
• Developing How Science Works• Using models• Understanding misconceptions• Effective group talk• Research skills• Scientific writing
Understanding Models
Introduction
• This strand is about recognising the importance of models in developing scientific understanding. Within the scientific community, models and modelling are an important mechanism for advancing scientific understanding.
Why Use Models?
• Teachers can use modelling to help pupils make sense of their observations, findings and abstract ideas through the visualisation of:– objects that are too big, e.g. the solar system, an
ecosystem; – objects that are too small or not seen easily, e.g. a
cell, the heart; – processes that cannot easily be seen directly, e.g.
digestion, erosion; – abstract ideas, e.g. Particle theory, energy transfer.
Progression in ModellingStep 1 – Pupil characteristics
Step 2 – Pupil characteristics
Step 3 – Pupil characteristics
Step 4 – Pupil characteristics
•recognise that everyday models and analogies can help to explain some scientific ideas
•can devise simple models to explain their observations, data or ideas; •can recognise that different models are used in science to explain the same phenomenon.
•identify strengths and weaknesses in some of the analogies and scientific models used; •use criteria to decide if it is a ‘good enough’ model or if the model needs to be changed.
•can select and justify the use of a particular model for an explanation; •can think creatively to devise more than one model to explain a scientific phenomenon.
Basic Cell DiagramsANIMAL CELL PLANT CELL
To move from Step 1 to Step 2
• Allow pupils to construct a range of cell models and then discuss whether these models helped them to visualise cells that are too small to see.
Models of typical animal and plant cellModels of typical animal and plant cell
Slide 4.4Slide 4.4
To Move From Step 2 to Step 3
• Pupils need to be taught how to evaluate models and decide how appropriate they are
• A typical lesson objective could be:• to be able to use a range of models or
analogies to explain the structure of different specialised cells.
Specialised cells and tissues
sperm cell red blood cell nerve cell
muscle cell root hair cell palisade cell
muscle tissue plant tissue
Slide 2.13
Specialised cells – pupils’ models
Slide 4.5Slide 4.5
Nerve CellSpermatozoa
To Move From Step 3 to Step 4
• Pupils need to be given the opportunity to select and justify the use of a particular model for an explanation.
• E.g. Looking at different ways that visking tubing can be used to represent the intestines.
I am just starting to use models: I can see how something in science is like something else; for example, lungs are like balloons.I can explain why some of my analogies work; for example lungs are like balloons because they can be inflated and deflated.
Top tips to improve:Play games where you pick two random things (for example, a window and a cup of tea), and explain how they are alike, using ideas about science. When you come across ideas in science, keep trying to think of what it is like (a model for the system)
I am improving at using models:I can make up my own simple models to explain what I see, my ideas or data I have gathered.I know why different models are used in science to explain the same thing.
Top tips to improve:When you are introduced to a new scientific idea, try to suggest a model that might be used to explain it.When the teacher or another student mentions a model for a system, think about the model and how well it explains the system.Try to ask questions about the model to help clarify what all the parts of the model represent.
I am taking use of models further:I can identify and discuss the strengths and weaknesses of some analogies and models.I can be creative in thinking of my own models and talking about the model with others.
Top tips to improve:When you are given a model, work out which parts of the model represent which bits of the scientific system it represents.When given a model, explain to someone where the model works, and where it does not work.Try to think of ways in which a model could be improved.Explain to someone else how a model can be improved.When given a selection of models of a system, identify the strengths and weaknesses of the model and use this analysis to choose which is the best model for the system.
I am skilled and confident in using models:I can choose an appropriate model to explain observations, ideas or data.I can explain why the model I have chosen is the most appropriate.I can be creative and think of my own model for a situation and explain it.
Top tips to improve:Explain why you have chosen a particular model.Make up your own models and identify their strengths and weaknesses.Talk about your models, and improve your model if possible.Explain how and why you improved your model.Discuss and agree some rules that you can use to judge if a model is ‘good enough’.
Using models pupil speak sheets
© Crown copyright 2009
•Developing ideas and theories to explain the world is at the heart of science
•How science works focuses on the critical analysis and linking of evidence to
support or refute ideas and theories.
•Effective enquiry work involves exploring questions and finding answers through
the gathering and evaluation of evidence
•Pupils need to understand how evidence comes from the collection and critical
interpretation of both primary and secondary data
• How evidence may be influenced by contexts such as culture, politics or ethics
How Science Works
© Crown copyright 2009
Why the emphasis on HSW?
For pupils to:
• be critical producers and consumers of evidence;
• use evidence well to construct explanations.
Slide 1.6
© Crown copyright 2009
At the end of a hard day ……..
Relax and unwind!Relax and unwind!
Give your body a well deserved Give your body a well deserved rest!rest!
Relax and unwind!Relax and unwind!
You could do a lot worse than use a foot spa,
drawing the toxins out through your feet
Foot spa - unsavoury truth?
Movie
• Look at the promotional materials and list the claims being made.
• Which of these claims could be investigated in a science lesson in Key Stages 3 or 4?
www.standards.dcsf.gov.uk/nationalstrategies
http://nationalstrategies.standards.dcsf.gov.uk/node/
182091