AMSTEL Institute Amsterdam Mathematics, Science and Technology Education Laboratory
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Transcript of AMSTEL Institute Amsterdam Mathematics, Science and Technology Education Laboratory
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MNU/Impresse, Berlin, April 3, 2007
AMSTEL InstituteAmsterdam Mathematics, Science and Technology Education Laboratory
A research facility of the Faculty of Science to improve M&S
Education in general, and to strengthen the link to
secondary education. Some activities:
(International) Master Mathematics & Science Education,
and teacher training
Science/Math Ed Research
Expert center for Dutch Ministry of Ed for ICT in Science
Education
Appr 35 staffmembers including 6 PhD ‘students’
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Integration of ICT in Education – the case of The Netherlands
Since 1985 nationwide projects In Science examination programs
and curricula since beginning of 90’s Integration in textbooks In examinations: questions that
clearly relate to ICT In 2007 all schools several subjects
computer exams (‘COMPEX’)
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Curriculum 1989
Lower secondary: special subject, small+ use of ICT in subjects
Upper secondary: no Informatics, but integration of concepts and skills in existing subjects
Example Physics, Chemistry, Biology:
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Curriculum Physics (Chemistry, Biology and Technology)
Domain ‘Skills’ a pupil is able to use a computer for
measurements, spreadsheets, simulations a pupil is able to control automated systems
In other , discipline oriented, domains use of IT is stated in some of the goals, f.i.:
a pupil is able to measure position and velocity with a sensor and computer
a pupil is able to use computer models to describe movements of f.i. satelite.
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Physics only (from 1991) Domain ‘Physics Informatics’
a pupil is able to name characteristics, operation and application of automated control systems
a pupil is able to build/design a control system with elements like: comparator, counter, memory
Concepts like Analog to digital, resolution, calibration, etc
Computational modelling
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Page of textbook
Level: upper secondary (16-17 year)
Activity: processing and analysing of data, damped oscillation
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Questions from national exams
Model of the movement of a golf ball Students have to
finish the model: expressions for a and v and put blocks in right order
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Present situation Level of implementation rather good
Key factors has been: Consistent approach for many
years Concerted action: innovation,
together with facilities, teacher training AND change of curriculum and examination
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ICT in National Exams -Overview
Choice central exams Experimental exams Added value? School organization
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ICT and Multimedia in Exams
Since 2002 experiments In all profiles, and sectors Physics: all schools can choose
2004 From 2009 compulsory?
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Importance of keeping Central Exams
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Importance of keeping Central Exams
by type of Education
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The Central Examination Board, Policy
ICT in every profile and every sector project 2002 -2006 parallel to exams on paper schools choose themselves
Obligatory in practical exams with vocational subjects
Added value!
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3 kinds of ict-applications
1. Offer information (i)
2. Use of standard software (s)
3. Exams on screen (b)
open questions and practical exams
open questions and practical exams
Computer-processablequestions
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ICT Exam subjects 2003-2006
Vwo Physics (s) biology (i,s) Math A 12
(s) Math A1 (s)
Havo Physics (s) Biology (i,s) Geography
(i,s) Economy 1
(i,s)
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Scope of application
Science Questions on video fragments (bi) Data Video (Coach 5, Coach 6) Modeling (Coach and Excel) Experiments and data processing
(animations, Flash, Java-applets etc.) Simulations
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Examples in Physics…Exam 2005: Skater and Sky Diver
Text on paper Video Measurement and
processing in Coach (Skater) Modelling activities (Sky
Diver) Answers on paper and saving
results on disk
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School Organization Adapting network (cheating,
copying..) Setup examination room with PC’s System requirements (install and test
CD-rom) Data transport online More successive sessions: training! Software available at home
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Added Value? More visualization possible Multi-media, animations, measuring possibilities Data-processing Testing larger range of skills: ICT, experimentation. Try-out options, ‘self’-corrective:
→ questions more open,
adressing problem-solving capacity! Realistic, less ‘artificial step-by step’ problems
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A highschool student project ..
In grade 11/12 students have to do an own investigation/project, 80 hours
Come up with own idea Gather information Pose the research question Design the experiment Compare with literature
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The winners in 2003: Niek Dubelaar en Remco Brantjes They found an
article (Menz, TPT 93) on the web talking about acceleration larger than g during bungee jumping
Their report
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What did they do - 1
Their starting point in fact was a>g during phase in which the jumper is ‘catapulted’ by the bungee.
Their research question deals with the phase before the bungee get stretched, and in fact is of much more interest …
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What did they do -2
They did use video measurement, but experienced that this is not that straightforward, and
They found a new article and learned the effect will be more dramatic in case the bungee is relatively heavy compared to the jumper: new experiments
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What did they do - 3
They claim reasonable results up to a=3.9 g (ratio m/M=3.5) in this second experiment,
They give the theory/explanation, based on an article of David Kagan and Alan Kott (TPT vol.34, sept 1996)
They won second price in a competition of University of Amsterdam
An Article in the NTvN: Journal of the Dutch Physical Society, October 2003
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Reactions ..1 Next issue: just an editors remark, ‘many reactions, next issue etc’ December 2003 issue, an overview by
the editor of the reactions
A number of physicists doubted the quality of present education in physics at highschools ….(no names given by the editor)
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Reactions 2
Several took the contribution serious and tried to give as elegant as possible explanations (names given)
Biezeveld (physics teacher) referred to his article in TPT (Vol.41, April 2003).He reported about a measurement of position with Coach, and a model calculation based on Kagan and Kott.
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Reaction Hewitt to Biezeveld
Biezeveld did receive a reaction from Paul Hewitt: ‘I did a Figuring Physics on it two January's ago. Not having the space to give a convincing explanation as your article supplies, I was booed by many. A website among teachers cried "Hewitt Blew it!"
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Reaction 3: two theoretical physicists, Pasveer and De Muynck
Our interpretation is Galilean, so Or we start to doubt the results Or we start to look for the extra
force
Both approaches not acceptable, better focus on the system of jumper + moving part of bungee, and only take Fg
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Newton’s second Law 1 We are used to F=m.a, so an
acceleration a needs a force F as a cause
But correct is F = dP/dt ; P = m.v, and for time dependent mass:
F = v.dm/dt + m.aAnd because F = m.g and dm/dt < 0
follows a>g
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Newton’s Second Law 2 They further derive the formula for
a-g and have solved the differential equation numerical for different values of the parameter m/M
Effect is caused pure due to diminishing mass, no matter how this is done
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Why we have problems to understand? We are so much used to the paradigm
‘every acceleration needs a force’ that we tend to see v.dm/dt as a force. But then we need to move this term to the other side..
This is what Newton did when he interpreted inertia forces. He interpreted the effect of a choice of the coordinate system as a Force. Einstein was needed to repair this and returned the term to the other side ..
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Conclusions
ICT enables and facilitates authentic, relevant and quality projects for highschool (and University) students.
Students recognize these possibilities immediately and based on experience/preparation in previous lessons largely choose them for their projects.
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Further Contact information:
[email protected]/amstelwww.cma.science.uva.nl
THANK YOU