1 Lou Bloomfield University of Virginia Wiley Faculty Network March 28, 2006 Teaching Physics in Context.

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Presentation transcript:

1 Lou Bloomfield University of Virginia Wiley Faculty Network March 28, 2006 Teaching Physics in Context

2 What is How Things Work? It’s Physics in the Context of Objects It puts objects before physics concepts It puts physics concepts before formulas It’s “backwards” It’s the “Case Study” Method It’s how Scientists actually Discover Science It’s what Makes Science Fun

3 Overview of this Presentation Motivation for How Things Work Structure of How Things Work An Example: Music Boxes Choosing the Objects Some Illustrations: Roller Coasters Bicycles Observations about How Things Work Clocks Microwave Ovens

4 Why How Things Work? “Oh, I’m a physicist” … (end of conversation) Conventional physics outreach is often: magic & mysteries (no explanation). factoids (what, where, when, but never why or how). names (memorization of random information). recipes (mindless plugging and chugging). formalized “scientific method” (canned experiments).

5 Why How Things Work? (con’t) In contrast, How Things Work grows naturally from the everyday world. explains rather than obscures. emphasizes thought and understanding. builds confidence rather than destroying it. is useful in everyday life. The audience for How Things Work is anyone who is curious about the world around them. absolutely enormous and largely untapped.

6 Structure of How Things Work A hierarchy with three levels Level 1: Areas of Physics – for instructor Level 2: Objects of Everyday Life – for students Level 3: Concepts of Physics – for both 7. Heat and Phase Transitions 7.1 Woodstoves (thermal energy, heat, temperature, chemical bonds and reactions, conduction, thermal conductivity, convection, radiation, heat capacity) 7.2 Water, Steam, and Ice (phases of matter, phase transitions, melting, freezing, condensation, evaporation, boiling, relative humidity, latent heats of melting and vaporization) 7.3 Incandescent Lightbulbs (electromagnetic spectrum, light, black body spectrum, emissivity, Stefan-Boltzmann law, thermal expansion)

7 Example: Music Boxes Introduces New Concepts 9. Resonance and Mechanical Waves 9.1 Music Boxes (natural resonance, harmonic oscillators, simple harmonic motion, frequency, pitch, sound, music, harmonic and non-harmonic overtones, sympathetic vibration, standing and traveling waves, transverse and longitudinal waves, velocity, frequency, and wavelength in mechanical waves, superposition) Reinforces Old Concepts Energy and Work (Chapter 1) Springs and Stable Equilibria (Chapter 3) Aerodynamics (Chapter 6)

8 Questions about Music Boxes What are vibration, pitch, sound, and music? Why does a tine vibrate? Why do different tines have different pitches? Why is a tine’s pitch independent of its volume? How does sound from the music box reach us? How does the music box produce sound? Why does a music box sound like a music box? These why and how questions are full of physics!

9 Choosing the Objects Set the physics agenda first, then choose the objects A typical object has one central physics issue Play up that central issue whenever possible Caveats (learned from painful experience) Some objects present physics better than others Some objects aren’t of general interest Less is more; you can’t do everything HTW’s Table of Contents follows this approach

10 How Things Work Table of Contents (Part 1) Chapter 1. The Laws of Motion, Part I 1.1 Skating 1.2 Falling Balls 1.3 Ramps Chapter 2. The Laws of Motion, Part II 2.1 Seesaws 2.2 Wheels 2.3 Bumper Cars Chapter 3. Mechanical Objects, Part I 3.1 Spring Scales 3.2 Bouncing Balls 3.3 Carousels and Roller Coasters Chapter 4. Mechanical Objects, Part II 4.1 Bicycles 4.2 Rockets and Space Travel Chapter 5. Fluids 5.1 Balloons 5.2 Water Distribution Chapter 6. Fluids and Motion 6.1 Garden Watering 6.2 Balls and Air 6.3 Airplanes Chapter 7. Heat & Phase Transitions 7.1 Woodstoves 7.2 Water, Steam, and Ice 7.3 Incandescent Lightbulbs Chapter 8. Thermodynamics 8.1 Air Conditioners 8.2 Automobiles Chapter 9. Resonance & Mechanical Waves 9.1 Clocks 9.2 Musical Instruments 9.3 The Sea

11 How Things Work Table of Contents (Part 2) Chapter 10. Electricity 10.1 Static Electricity 10.2 Xerographic Copiers 10.3 Flashlights Chapter 11. Magnetism & Electrodynamics 11.1 Household Magnets 11.2 Electric Power Distribution 11.3 Electric Generators and Motors Chapter 12. Electronics 12.1 Power Adapters 12.2 Audio Players Chapter 13. Electromagnetic Waves 13.1 Radio 13.2 Microwave Ovens Chapter 14. Light 14.1 Sunlight 14.2 Discharge Lamps 14.3 Lasers and LEDs Chapter 15. Optics 15.1 Cameras 15.2 Optical Recording and Communication Chapter 16. Modern Physics 16.1 Nuclear Weapons 16.2 Medical Imaging and Radiation

12 Goals for How Things Work How Things Work should help students: begin to see science in everyday life learn that science isn’t frightening learn to think logically in order to solve problems develop and expand their physical intuition learn how things work see the universe as predictable rather than magical see the history of science and technology

13 How Things Work is a Flexible Concept While the objects provide a common ground, different instructors teach differently different students learn and think differently To be successful with HTW, an instructor should employ any of the best classroom techniques respect the students and listen to them HTW sets the stage for exceptional productivity

14 Roller Coasters How do loop-the-loops work? Physics concepts involved: Inertia Acceleration and forces Centripetal accelerations Weight and “weightlessness”

15 Bicycles Why are bicycles so stable? Physics concepts involved: Equilibrium Energy and acceleration Stable and unstable equilibriums Static stability Gyroscopic precession Dynamic stability

16 Clocks How do clocks keep time? Physics concepts involved: Time and Space Forces and Acceleration Harmonic Oscillators

17 Microwave Ovens How do microwave ovens cook? Physics concepts involved: Electric fields Polar molecules and free charges Electrostatic forces and torques Electromagnetic waves Wavelength and frequency

18 Philosophy of How Things Work It’s an outreach course, not a recruiting course It aims to inform bright, eager non-scientists who don’t know what physics is who don’t know why physics matters who respond to relevance, value, and respect How Things Work is about them, not about us If you build it, they will come

19 Observations about How Things Work The impact of How Things Work Many non-science students are now learning physics These students find physics useful There is less fear of physics – a cultural change Physics has become a valued part of the curriculum Other physics courses are flourishing

20 Observations about How Things Work (con’t) My own experiences I’m enjoying teaching more than ever I feel as though I make a difference I get to explain physics widely I’ve learned a great deal of science

21 The End