Post on 18-Dec-2014
description
ESTABLISH: European Science and
Technology in Action: Building
Links with Industry, Schools and
Home Stephan Domschke stephan.domschke@biodidaktik.uni-halle.de
Martin-Luther-Universität
Halle-Wittenberg
11 countries – 14 institutes – 60 partners STEM education international
ESTABLISH Kick off Meeting,
January 2010, DCU, Ireland
ESTABLISH European Science and Technology in Action: Building Links with Industry, Schools and Home
The objective of ESTABLISH:
• drive change in the classroom
• dissemination and use of an inquiry-based science
education
• with second level students (age 12-18 years) on a
large scale in Europe
• by creating authentic learning environments
• involving all stakeholders
ESTABLISH models Bringing together the stakeholders to influence classroom practice
…creating authentic
learning environments
for science…
…bringing together all
stakeholders …
Teacher Education
• Pre-service & In-service
• Develop teacher skills to facilitate inquiry-based learning
IBSE Units
• Learning path(s) around a topic to support the IBSE and industry relevance
• 18 units; Physics, Chemistry, Biology, Science
Industrial Links
• Authentic learning experiences in science gained from industrial and scientific communities.
ESTABLISH modules Development, piloting and evaluation
To develop a positive attitude towards teaching physics in an inquiry-based approach
Pre-service To highlight the
benefits of inquiry-based approaches to teaching science
In-Service
Supporting Inquiry-Based Learning ESTABLISH Teacher Education
• ESTABLISH view of IBSE
• Examples of Activities
• Industrial Content Knowledge (ICK)
• Science Teacher as Implementer
• Science Teacher as Developer
Expected Outcomes ESTABLISH
A large team of science teachers across Europe who are skilled and confident in inquiry based science
teaching methodology.
Expected Outcomes ESTABLISH
Identification of suitable model(s) of science teacher education at
both pre- and in-service levels, for inquiry based science teaching.
Expected Outcomes ESTABLISH
Promotion of inquiry in the classroom, involving the relevant stakeholders in science, industry,
home and science education.
Expected Outcomes ESTABLISH
A large team of science teachers
across Europe who are skilled and
confident in inquiry based science
teaching methodology.
Identification of suitable model(s) of science teacher education at both pre- and in-service levels, for inquiry
based science teaching.
Promotion of inquiry in the
classroom, involving the
relevant stakeholders
science and science education.
Sharing of Experiences
To ensure maximum impact, ESTABLISH will contribute to the Scientix platform, for the dissemination and promotion of best practice and resources of IBSE.
Further information about ESTABLISH;
• Events, seminars, teacher workshops;
• Educational and training materials
Website: www.establish-fp7.eu
Contact details:
stephan.domschke@biodidaktik.uni-halle.de
Project Manager: Dr. Sarah Brady; CASTeL, DCU, Ireland; sarah.brady@dcu.ie
http://www.howdoesshe.com/wp-content/uploads/thank-language.jpg
http://www.howdoesshe.com/wp-content/uploads/thank-language.jpg
Diagnosing problems
Critiquing experiments
Distinguishing alternatives
Planning investigations
Researching conjectures
Searching for information
Debating with peers
Forming coherent
arguments
Inquiry is…
ESTABLISH models
Linn, M. C., Davis E.A., & Bell, P. (2004). Internet Environments for Science Education. Mahwah, NJ.: Lawrence Erlbaum Associates
ESTABLISH models Levels of Inquiry
Banchi, H. & Bell, R. (2008)
Wenning, C. J. (2005)
1. Interactive discussion /
Interactive demonstration
2. Guided discovery
3. Guided inquiry
4. Bounded inquiry
5. Open inquiry
Student‘s Participation & Independence
Teacher‘s Guidance
ESTABLISH models BSCS 5E‘s instructional model
Engagement
Exploration
Explanation
Elaboration (to extend)
Evaluation
Bybee, R., Taylor, J. A., Gardner, A., Van Scotter, P., Carlson, J., Westbrook, A., Landes, N. (2006). The BSCS 5E Instructional Model: Origins and Effectiveness. Colorado Springs, CO: BSCS.
ESTABLISH models BSCS 5E‘s instructional model
Engagement
Exploration
Explanation
Elaboration (Extend)
Evaluation Bybee, R., Taylor, J. A., Gardner, A., Van Scotter, P., Carlson, J., Westbrook, A., Landes, N. (2006). The BSCS 5E Instructional Model: Origins and Effectiveness. Colorado Springs, CO: BSCS.
TEACHER
EDUCATION
PROGRAMMES
FRAMEWORK
CORE ELEMENT 1
Web-based
TEACHER
EDUCATION
PROGRAMME
CORE ELEMENT 11
CORE ELEMENT 111
CORE ELEMENT 1V
ICT 5
ARGUMENTATION 6
RES AND DESIGN 7
ASSESSMENT 8
LEARNING OBJECTIVES
LO
LO
LO
LO
LO
LO
LO
ACTIVITIES
ACTIVITIES
ACTIVITIES
ACTIVITIES
ACTIVITIES
ACTIVITIES
ACTIVITIES
ACTIVITIES
UNITS D3.1 + D3.2
IBSE Units 18 Units for biology, chemistry, physics and science
Sound (Physics) Disability (Science)
Light (Physics) Medical Imaging (Science)
Electricity (Physics) Renewable Energy (Science)
Low Energy House (Physics) Forensic Science (Science)
Exploring Holes (Chemistry) The process of Science (Science)
Photochemistry (Chemistry) Chemical Care (Chemistry)
Cosmetics (Chemistry) Polymers (Chemistry)
Chitosan – Fatmagnet? (Chemistry) Photosynthesis (Biology / Chemistry)
Blood donation (Biology) Eco-Biology (Biology)
Develop Industrial Content Knowledge (ICK) Industrial content
I C K
• Relevance of scientific content to industry and everyday objects
• Integration of activities developed by companies
• Localization of appropriate industry
• Activities about an industry or lab visit
• Engineers and scientists as contributors and role models
• Cooperation between school and industry
• WP1 Selection of core • WP2 Involvement of strategic partners • WP3 IBSE Units • WP4 Pre-service teacher education • WP5 In-service teacher education • WP6 Assessment of implementation • WP7 Evaluation • WP8 Dissemination • WP9 Management
Workpackages
Interest change – 40 students (age 15-17) Small Prospect to Perceptions
0
2
4
6
8
10
12
14
...ist größer geworden ...ist etwa gleich geblieben ...hat sich eher verringert
To
tal v
ote
s
Mein Interesse anNaturwissenschaften..
Mein Berufswunschfür einennaurwissenschaftlichen oder technischenBeruf...
My interest in a career in Science has ...
My interest in Science has ...
++ +- --
Acceptance of STEM – N=117 pre-service teacher, all sciences Small Prospect to Perceptions
high middle low
pe
rce
nta
ge o
f st
atem
ents
Challenges 161 in-service teacher from 4 countries, sorted by total
Source: ESTABLISH, Interim Profile of in-service science teachers’ attitudes and understanding of IBSE
Inquiry in national curricula Elements of Inquiry CY CZ DE EE IE IT MT NL PL SK SE
Diagnosing problems
Critiquing experiments
Distinguishing alternatives
Planning investigations
Researching conjectures
Searching for information
Constructing models
Debating with peers
Forming coherent arguments
Source: ESTABLISH, Report on how IBSE is implemented and assessed in participating countries