from nanoyou to secondary school nano studies, nira shimoni-ayal
TRANSCRIPT
Nanotechnology course for middle school students - Inspiring science and
technology education with nanotechnology studies
2nd Scientix conference
October 25th 2014
Dr. Nira Shimoni-Ayal – ORT Israel
You will be hearing about:
Why? Why?
project Nanotech. curriculum
Challenges & Solutions
What is Nano?
Nanometer (nm) = 1 millionth of a millimeter, 1 billionth of a meter
Nanoscience: 5-500 nmParticles, fibres, layers
Atoms and molecules (chemistry) 0.1-2 nm
Microscopy: microns and milimeters
Nanoscience: the study of phenomena and manipulation of materials of sizes 5-500 nm, where properties differ significantly from those at a larger scale.
25,000 students
4,000 young adults in science centers
Ages:11-18
400 schools20 countries
Ages:19-25
- Nano for Youth2009-2011
ORT Israel - 4 European projects
1 Israeli project
Challenges of teaching NT
University level middle-school level
Frontier subjects: uncertainty and flux
Coping with an abstract field
Teaching without sacrificing basic science
Teacher training
Price: labs & materials
Why teach NT in school?
Lesson from GMO – Informed critical thinking citizens
Informed citizens critical thinking citizens rational decisions
Captive audienceBasic concepts
Lesson from GMO – Informed critical thinking citizens
Raises motivation for science studies
Why teach NT in school?
Socially relevant –dialogue about ethical,
legal, social (ELSA) aspects
Attractive – new, exciting & relevant; real-life applications already
on shelves
Lesson from GMO – Informed critical thinking citizens
Motivation for science studies
It’s there - Fits naturally in middle school scientific curriculum
Why teach NT in school?
Multidisciplinary Properties of materials
Chemical bonds Cell organelles
What can be taught?
Nanoscience & Nanotechnology basic literacy
• Nanoparticles• Nanodevices• Nanocomposites• Nanocrystalline Materials• Nanofibres• Thin-films & Coatings• Fullerenes & Carbon
nanotubes• Colloids
• Self-Cleaning coatings• Integrated Circuits• Solar cells• Quantum Dots• Nanomedicine• Nanoscale Drug Delivery
• Nanometre• Nanoscale
• Surface/Volume• Biomimetics• Self assembly• Enhanced Properties:
Mechanical Chemical ReactivityElectrical and ThermalOptical
• Nanoparticle's Toxicity
How can NT be taught?
Four basic models:
Extracurricular – Happenings, excellence classes
Enrichment of curriculum
Modules within another subject
Stand-alone subject
- Nano for Youth
Solutions
Set of small components
Happenings; one day modules
Challenges tackled
middle-school level
frontier subjects
Coping with an abstract field
Not sacrificing basic science
- Strongest Features
Experiments
Role-Plays & Virtual dilemmas
Video
Scientific background
- Greatest problem
Mainly for strong knowledgeable teachers
Nanotechnology for 9th grade
30 hour Mini curriculum - Blended learning:
• E-learning • Teacher presentations • Experiments
Challenges tackled
Teacher training
Mapping the material 9th gradeTackling:
Teaching without sacrificing basic science
University level middle-school level
• Nanoparticles• Nanodevices• Nanocomposites• Nanocrystalline
Materials• Nanofibres• Thin-films &
Coatings• Fullerenes &
Carbon nanotubes• Colloids
• Self-Cleaning coatings
• Integrated Circuits
• Solar cells• Quantum Dots• Nanomedicine• Nanoscale Drug
Delivery
• Nanometre• Nanoscale
Surface/VolumeBiomimeticsSelf assemblyEnhanced Properties:• Mechanical • Chemical Reactivity• Electrical and
Thermal• Optical Nanoparticle's Toxicity
Chemistry:Chemical bondsCarbon
Physics:Uses of EM radiation
Biology: Materials inside organismsHierarchic organization
Environmental science:Effect of technology on eco-systems
NT literacy 9th grade science studies
NT in Nature Materials’ Properties Orders of Magnitude What is NT
The future… Ethical Aspects NT Applications Processing & Viewing
NT in Nature Materials’ Properties Orders of Magnitude What is NT
The future… Ethical Aspects NT ApplicationsProcessing and Viewing
Nanotechnology for 9th grade
Mini curriculum - Blended learning:
What is NT Orders of Magnitude Materials’ Properties NT in Nature
Processing / Viewing NT Applications Ethical Aspects The future…
How does this work?
Guided viewing – video part 2
Appendix 2Raising interest
• Demonstration of orders of
magnitude
• Units of measuremnt
• Nanometric range and size
Classroom
summary
Demonstration & discussion:
How to measure nanometers?
Appendix 3
Interactive ICT
environment
Test yourself – onlineSelf evaluation
Scale & Orders of Magnitude
How does this work?
• Demonstration of orders of
magnitude
• Units of measuremnt
• Nanometric range and size
How does this work?
• Demonstration of orders of
magnitude
• Units of measuremnt
• Nanometric range and size
How does this work?
Coping with an abstract field
Surface/volume
depends on size
Last challenges
Latest additions• Teacher kit – materials and background• Teacher community and hub
challenges
Teacher training
Frontier subjects
Price: labs & materials