Richard Aplin richard.aplin@hants.gov.uk

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Richard Aplin richard.aplin@hants.gov.uk

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Title: Richard Aplin richard.aplin@hants.gov.uk

1
Hampshire Inspection and Advisory Service,
Science Team

An experiential model for
professional development

Richard Aplin richard.aplin_at_hants.gov.uk
Dave Whittle david.whittle_at_hants.gov.uk
Frank Fearn frank.fearn_at_hants.gov.uk

2
In a nutshell

We are not teaching students the right things
They are not enjoying it anyway
Not sure boards and SNS have the right models to
rectify the problem
We think we have a different approach that may
help

3
Students attitudes to secondary science

Jonathon Osborne (SSR March 2008)
Drop off at KS2-3 transfer

4
Crisis of scienceorcrisis of science education?
5
Simple definition of science

A body of knowledge acquired through the
scientific method
Finding truths through the gathering and analysis
of evidence.

6
Two issues with teaching how to be scientific

Do we have effective models for teaching how to
be scientific?
The discrete skills models
Do teachers have sufficient experience of doing
science themselves?

7
The experiential model
8
Starting with the experience

Do some proper science

9
Why do F1 racing cars
have wide wheels?
10
The rising floating candle
11
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12
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13
Starting with the experience

Do some proper science
Unpick what made it feel like science
Establish some Non-Negotiables

14
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15
Starting with the experience

Do some proper science
Unpick what made it feel like science
Establish some Non-Negotiables
Go away and give students opportunities to do
what you just did (i.e. plan lessons around the
NNs)

16
How did it go?

Feedback against NNs
Identify blocks (student and teacher)
Agree foci for action

17
Less appropriate prompts

How would you improve your investigation?
Draw a line of best fit
Write a method for your experiment
And what you should have found out is..

18
impact
19
Aims of the project

Create a bank of tried and evaluated teaching
resources to develop childrens scientific
problem solving skills
Develop as professionals as a result of
collaboration
Improve childrens problem solving skills over
the course of the project.
Increase the motivation of able children

20
Students experience of the scientific process

How would you check your ideas in science
lessons?
How would scientists check their ideas?

21
How would you check your ideas in science lessons?
How would scientists check their ideas?
22
After a year of the project?
23
How would you check your ideas in science
lessons? (Before)
24
How would scientists check their ideas? (before)
How would scientists check their ideas? (after)
25
Summary
Before After

20 checked their ideas by testing
46 asked teacher
20 checked their ideas by checking with others
Over 70 thought scientists checked their ideas
by testing
Only 7 thought scientists checked their ideas
with others

36 checked their ideas by testing
26 asked teacher
25 checked their ideas by checking with others
Over 70 thought scientists checked their ideas
by testing
Only 10 thought scientists checked their ideas
with others

26
Has it improved the enjoyment and motivation of
students?

Three words to describe your science lessons

27
Three words to describe your science lessons
Project students
Comparator groups
28
Summary

Starting from the experience has encouraged
teachers to give students more independence in
their scientific thinking.
The student experience better matches their
notion of what scientists do
Students are more positive about their science
lessons
The product acted as a driver but is not the
valuable outcome

29
Next steps