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Condensed Matter
Q3-01: Helix Diffraction
Category:
Q3 Genetics and Molecular Biology
Purpose
:
To model the structure of a helical molecule
I7-22: Phonon Propagation - Simple 1D Model
Category:
I7 Solid State and Low Temperature Physics
Purpose
:
To illustrate the concept of phonons
I7-09: Spontaneous Ordering - Crystal Formation Models
Category:
I7 Solid State and Low Temperature Physics
Purpose
:
Demonstrates the formation of crystal patterns from disordered objects
I7-31: FILLED CONDUCTION BANDS
Category:
I7 Solid State and Low Temperature Physics
Purpose
:
Demonstrate that filled bands and empty bands are non-conductive; only partially filled bands are active.
I7-11: FERMI SURFACE OF ALUMINUM
Category:
I7 Solid State and Low Temperature Physics
Purpose
:
Illustrate the Fermi surface of aluminum.
I7-08: CRYSTAL MODEL WITH FAULTS
Category:
I7 Solid State and Low Temperature Physics
Purpose
:
Visualization of a crystal fault within a simple crystal structure.
I7-06: CRYSTAL MODELS - LARGE UNIVERSAL
Category:
I7 Solid State and Low Temperature Physics
Purpose
:
Set of components to form a large number of crystal types.
I7-05: CRYSTAL MODELS - LARGE
Category:
I7 Solid State and Low Temperature Physics
Purpose
:
Large models of crystals.
I7-01: CRYSTAL MODELS - SET OF 2
Category:
I7 Solid State and Low Temperature Physics
Purpose
:
Set of two simple crystal models.
N1-32: ICE CRYSTALS - PAPER MODELS
Category:
N1 Continuous Spectra
Purpose
:
Illustrates how two types of ice crystals formed high in the atmosphere float downward through the air with preferred orientations.
N1-31: SUN DOG - MODEL
Category:
N1 Continuous Spectra
Purpose
:
Show how a "sun dog" is formed.
I7-03: CRYSTAL MODELS - BRAVAIS SUPPLEMENTAL SET OF 16
Category:
I7 Solid State and Low Temperature Physics
Purpose
:
Models of crystals.
I7-02: CRYSTAL MODELS - BRAVAIS SET OF 14
Category:
I7 Solid State and Low Temperature Physics
Purpose
:
Models of crystals
I7-07: CLOSE-PACKED CRYSTALLITE
Category:
I7 Solid State and Low Temperature Physics
Purpose
:
Display the low index surfaces of face-centered cubic or hexagonal close-packed crystals
I7-04: CRYSTAL MODELS - CALCITE
Category:
I7 Solid State and Low Temperature Physics
Purpose
:
Model a calcite crystal with a sample of the real thing
I7-21: SUPERCONDUCTOR - MAGNET LEVITATION
Category:
I7 Solid State and Low Temperature Physics
Purpose
:
Demonstrate levitation of a magnet above a high-temperature superconductor
A General Materials and Mathematics
A1 Basic Materials and Measurement
A2 Mathematics
B Statics
B1 Center of Mass Statics
B2 Equilibrium of Forces and Torques
B3 Simple Machines
B4 Elasticity
C Kinematics and Dynamics
C1 Center of Mass Motion
C2 Kinematics in One and Two Dimensions
C3 First Law of Motion
C4 Second Law of Motion
C5 Third Law of Motion
C6 Friction
C7 Collisions
C8 Mechanical Energy and Power
D Rotational Mechanics
D1 Rotational Kinematics and Dynamics
D2 Moment of Inertia
D3 Angular Momentum
D4 Gyroscopes
D5 Rotational Esoterica
E Gravitation and Astronomy
E1 Gravitation and Orbits
E2 Astronomy
F Fluid Mechanics
F1 Pressure in Static Fluids
F2 Buoyancy
F3 Surface Tension
F4 Fluid in Motion
F5 Forces in Moving Fluids
G Vibrations and Mechanical Waves
G1 Simple Harmonic Motion
G2 Resonance and Coupled Oscillations
G3 Mechanical Waves - One Dimensional
G4 Mechanical Waves - Two Dimensional
H Sound
H1 Nature of Sound
H2 Wave Properties of Sound
H3 Standing Sound Waves
H4 Music
H5 The Ear
H6 The Voice
I Thermodynamics
I1 Thermal Properties of Matter
I2 Transfer of Heat
I3 Gases
I4 Changes of State
I5 Laws of Thermodynamics
I6 Kinetic Theory and Statistical Mechanics
I7 Solid State and Low Temperature Physics
J Electostatics and Magnetostatics
J1 Electrostatic Charge and Force
J2 Electrostatic Devices and Applications
J3 Electric FIelds and Potential
J4 Capacitance and Polarization
J5 Magnetostatics
J6 Electromagnets
J7 Magnetic Materials
K Electromagnetic Principles
K1 Forces on Moving Charges
K2 Electromagnetic Induction
K3 Transformers
K4 Motors and Generators
K5 Electrical Properties of Matter
K6 Electric Circuits and Instruments
K7 RLC Circuits
K8 Electromagnetic Waves and Sources
L Geometrical Optics
L1 Light Sources and Light Rays
L2 Plane Mirrors
L3 Curved Mirrors
L4 Refraction
L5 Total Internal Reflection
L6 Lenses
L7 Optical Instruments
M Wave Optics
M1 Interference and Diffraction - Slits and Gratings
M2 Diffraction - Circular
M3 Interferometers
M4 Thin Film Interference
M5 Interference and Diffraction Esoterica
M6 Holograms
M7 Linear Polarization and Scattering
M8 Optical Activity and Birefringence
M9 Circular Polarization
N Spectra and Color
N1 Continuous Spectra
N2 Line Spectra
N3 Color
O Vision
O1 Image Production
O2 Visual Latency
O3 Color Vision
O4 Optical Illusions
P Modern Physics
P1 Relativity
P2 Quantum Mechanics
P3 Atoms and Molecules
P4 Nuclei and Particles
Q Biophysics
Q1 Musculoskeletal Systems
Q2 Organs
Q3 Genetics and Molecular Biology
I5-01 MECHANICAL EQUIVALENT OF HEAT - SHOT BAG
Demonstrates that heat can be produced from mechanical work
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I5-02: TRANSFORMATION OF MECHANICAL ENERGY INTO HEAT
Demonstrate transformation of mechanical energy into heat.
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I5-03: MECHANICAL EQUIVALENT OF HEAT - JOULE'S METHOD
Determine the mechanical equivalent of heat.
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I5-11 ADIABATIC PROCESS - AIR PISTON WITH THERMISTOR
Demonstrates adiabatic compression and expansion of air
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I5-12: ADIABATIC EXPANSION OF AIR - FOG IN BOTTLE
Demonstrate adiabatic cooling of air
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I5-15: ADIABATIC EXPANSION OF CARBON DIOXIDE
Illustrate adiabatic cooling by producing dry ice
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I5-21: HEATING AIR BY COMPRESSION
Demonstrate heating air by compression.
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I5-22 FIRE SYRINGE
Demonstrates heating air by compression
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I5-31 STEAM ENGINE - STATIONARY
Working model of a steam engine
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I5-32: STIRLING ENGINE
Demonstrates a Stirling engine
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I5-33 STEAM ROLLER
Toy steam roller with real steam engine
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I5-41: ENDOTHERMIC REACTION - ENTROPY
Aid a discussion of entropy.
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I5-51: SPECIFIC HEAT - ALUMINUM AND COPPER
Illustrate calorimitry and to determine experimentally the specific heats of aluminum and of copper.
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I5-52: ELECTRIC CALORIMETER
Determine the equivalence between electrical energy and heat energy (the electrical equivalent of heat).
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