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Model of the uranium pile.
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Mechanics (A)
Acceleration (A+0)
Conservation of Energy (A+5)
Frames of Reference (A+10)
Friction (A+12)
Forces (A+14)
Gravitation (A+15)
Linear Inertia (A+20)
Rotational Inertia (A+25)
Angular Momentum (A+30)
Linear Momentum (A+35)
Motion in One Dimension (A+37)
Physical Measurements (A+45)
Projectiles (A+50)
Rotational Dynamics (A+55)
Statics and Mechanical Equilibrium (A+60)
Torque (A+65)
Vectors (A+70)
Mechanical Advantage (A+80)
Waves (B)
Chaotic Oscillations (B+5)
Simple Harmonic Motion (B+10)
Coupled Harmonic Oscillators (B+15)
Forced Oscillations/Resonance (B+20)
Travelling Waves (B+25)
Superposition : Fourier Principles/Complex Waves (B+30)
Interference (B+35)
Sound Spectrum/Sources (B+45)
Standing Waves/Resonance (B+50)
Vibrational Modes (B+55)
Speed of Sound (B+60)
Doppler Shift (B+65)
Shock Waves (B+67)
Music and the Ear (B+70)
Properties of Heat and Matter (C)
Weather and the Atmosphere (C+0)
Calorimetry (C+5)
Carnot Cycle (C+10)
Conduction (C+15)
Convection (C+20)
Engines and Pumps (C+22)
Fluid Dynamics (C+25)
Surface Tension and Capillary Action (C+27)
Fluid Statics (C+30)
Heat and Work (C+35)
Heat Capacity (C+40)
Heat of Fusion (C+45)
Irreversibility and Fluctuations (C+50)
Kinetic Theory and Gas Models (C+55)
Liquification of a Gas (C+60)
Molecular Models and Crystal Structure (C+62)
Radiation (C+65)
Temperature and Expansion (C+70)
Thermometry (C+75)
Triple Point (C+80)
Mechanical Properties of Materials (C+90)
Electricity and Magnetism (D)
Capacitance (D+0)
Electromagnetic Oscillations (D+5)
Electrostatics (D+10)
Faraday's Law (D+15)
Inductance (D+20)
LCR Phase Relationships (D+25)
Magnetic Fields (D+30)
Magnetic Properties (D+35)
Meters (D+40)
Motors (D+45)
Oscilloscopes (D+50)
Resistance (D+55)
Solid State and Semiconductors (D+60)
Thermionic Emission (D+65)
Thermoelectricity (D+70)
Transformers (D+75)
Voltaic Cells (D+80)
Electrolysis (D+85)
Optics (E)
Color Perception (E+5)
Diffraction (E+10)
Gratings and Spectra (E+15)
Holography (E+20)
Interference (E+25)
Lenses (E+30)
Metallic Color (E+35)
Mirrors (E+40)
Polarization and Birefringence (E+45)
Prisms (E+50)
Propagation of Light (E+55)
Refraction and Reflection (E+60)
Spectral Energy (E+65)
Modern and Contemporary Physics (F)
Cathode and Canal Rays (F+0)
X-Rays (F+5)
Electron Diffraction (F+10)
Photoelectric Effect (F+15)
Atomic Structure (F+20)
Photons (F+18)
Quantum Mechanical Barrier Penetration (F+30)
Scattering (F+25)
Elementary Particles (F+35)
Cloud Chambers (F+45)
Range of Alpha Particles (F+50)
Franck-Hertz Experiment (F+55)
Radioactivity (F+65)
Accelerators (F+70)
Fission and Fusion (F+80)
Superconductivity (F+85)
Zeeman Effect (F+90)
Laser (F+95)
Fuel Cells (F+100)
Astronomy and Perception (G)
Astronomy Slides (G+0)
Astronomy Models (G+5)
Optical Illusions (G+55)
Audio Illusions (G+50)
Perception (G+60)
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Pages that link to Model of the uranium pile.
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Mousetrap chain reaction experiment.
YBaCuO pellet with magnet in liquid nitrogen on TV camera.
Model of the uranium pile. added to demo request on 26-09-2013
Model of the uranium pile. added to demo request on 04-12-2013
Model of the uranium pile. added to demo request on 24-09-2014
Model of the uranium pile. added to demo request on 17-02-2015
Model of the uranium pile. added to demo request on 17-10-2019
Model of the uranium pile. added to demo request on 29-09-2021
Model of the uranium pile. added to demo request on 07-10-2021
Model of the uranium pile. added to demo request on 15-02-2022
Demonstration of Proton Proton Chain