SLIDES |
| Tray
#1 |
|
Weather |
| Tray
#2 |
|
01-27 Statics |
|
30-35 Force
and Deformation |
|
40-46 Pressure
of Water |
|
50-53
Buoyancy |
|
55-58 Boyle’s
Law |
|
65-xx Temperature
and Heat |
| Tray
#3 |
|
01-24 Motion-Strobe
Pictures |
|
27-29 Circular
Motion |
|
32-38 Moving
Coordinate Sy
stems |
|
40-47 Simple
Harmonic Motion, Pendulum |
|
50-59 Momentum
and Collision |
|
65-72 Conservation
of Energy |
| Tray
#4 |
|
01-80 Interference
of Light |
|
10-21 Polarization
of Light |
|
25-33 Interference
and Diffraction |
|
35-41 Diffraction
Grating |
|
45-50
Sound Waves |
|
55-64 Wave
Motion |
|
70-xx Ripple
Tank |
| Tray
#5 |
|
01-18 Electrostatics |
|
20-26 Magnetism |
|
30-39 Current
and Magnetic Field |
|
45-56 Electromagnetic
Induction |
|
60-68 Electric
Current |
|
69-80 Tubes
and Transistors |
| Tray
#
6 |
|
01-09 Molecular
Motion |
|
15-21 Electrical
Discharge |
|
25-42 Cathode
Rays |
|
45-53 X-Rays |
|
55-57 Electron
Diffraction |
|
59-60 Cloud
Chamber |
|
65-69 Atomic
Reactor |
| Tray
#7 |
|
01-08 Atomic
Sprectra and the Zeeman |
|
11-35 Electron
Distribution in the Hydrogen Atom |
|
38-47 Entropy
and Dot Patterns |
|
50-53 Entropy
of Mixing |
|
56-78 PASCO’s
Drawings of Famous Physicists |
| Tray
#8 |
|
Reflection
and Refraction |
| Trays
#9 & #10 |
|
Fractals |
| Tray
#11 |
|
Set
37 666-685
-- Northern Constellations |
|
Set
64 1223-1249
-- The Planets |
| Tray
#12 |
|
Worlitzer |
| Tray
#13 |
|
Observations
and Telescopes |
|
Green
Banks, WV |
|
Historical
Slides: |
|
Set
59 1
115-1138 |
|
Set
60 1139-1162 |
|
Set
82 1609-1632 |
| Tray
#14 |
|
ASU
Physics Slides |
| Tray
#15 |
|
Faculty
3/28/96 |
| Tray
#16 |
|
Worlitzer |
| Miscellaneous
Slides |
|
Physics
Club in Florida 1969 |
|
Physics
Club in Chicago |
|
Solid
Earth, The Starry, The Not So, Atom |
|
Entropy
of Mixing |
|
Entropy
and Dot Patterns |
|
Apollo
Slides |
FILMS |
| Plastic
Containers |
|
Meters,
Liters, Grahams |
|
Physics
Workshop I |
|
Physics
Workshop II |
|
Physics
Workshop III |
| Large
Canisters |
|
Rutherford
Atom |
|
Liquid
Helium: The Superfluid |
|
Crab
Nebula |
| Medium
Canisters |
|
The
Universe |
|
Frames
of Reference |
|
Measuring
Large Distances |
|
Random
Events |
|
Coulomb’s
Law |
|
Crystals |
|
Introduction
to Optics |
|
Relativity
Series |
| Small
Canisters |
|
Stationary
Transverse Waves |
|
Progressive
Waves: Transverse and Longitudinal |
|
The
Principle of Superposition |
|
Tacoma
Narrows Bridge |
|
Powers
of Ten |
|
Time
Dilation, “Twin Paradox” |
|
Propagation |
|
Polarization
of Light |
|
Zero
‘g’ |
FILM
LOOPS |
| A: Modern Physics |
|
A1 |
Thompson
Model of the Atom |
|
A2 |
Rutherford
Scattering |
|
A3 |
Particle
in a Box |
|
A4 |
Entropy
and Time Reversal |
|
A5 |
The
Speed of Projectiles, Speed and
Light |
|
A6 |
Simultaneity
is Relative |
|
A7 |
Michelson-Morley
Experiment |
|
A8 |
Length
Contraction |
|
A9 |
Time
Dilation |
|
A10 |
The
Doppler Effect and the Twin Paradox |
|
A11 |
World
Lines |
|
A12 |
Coordinate
Transformation |
| E: Electricity and Magnetism |
|
E1 |
Meters |
|
E2 |
Faraday’s
Law of Induction |
|
E3 |
Motors |
|
E4 |
Electrostatic
Deflection of an Electron Beam |
|
E5 |
The
Shadow-Mask Picture Tube |
| L: Light |
|
L1 |
Sunshine
Optics |
|
L2 |
Diffraction
– Single Slit |
|
L3 |
Diffraction
– Double Slit |
|
L4 |
Resolving
Power |
|
L5 |
Michelson
Interferometer |
|
L6 |
Diffraction |
| M: Mechanics |
|
M1 |
Acceleration
Due to Gravity I |
|
M2 |
Acceleration
Due to Gravity II |
|
M3 |
Gravitational
Potential Energy |
|
M4 |
Trajectories |
|
M5 |
Kinetic
Energy |
|
M6 |
Circular
Motion |
|
M7 |
Inertial
Forces, Centripetal Acceleration |
|
M8 |
Retrograde
Motion – Heliocentric Model |
|
M9 |
Angular
Momentum Trains |
|
M10 |
One-Dimensional
Collisions I |
|
M11 |
One-Dimensional
Collisions II |
|
M12 |
Inelastic
One-Dimensional Collisions |
|
M13 |
Explosion
of a Cluster of Objects |
|
M14 |
Playground
Physics
|
|
M15 |
Collisions |
|
M16 |
Measurement
of ‘g’: The Cavendish Experiment |
| W: Waves |
|
W1 |
Vibration
of a Wire |
|
W2 |
Standing
Waves in a String |
|
W3 |
Tacoma
Narrows Bridge Collapse |
|
W4 |
Superposition |
|
W5 |
Doppler
Effect |
| Z: Miscellaneous |
|
Z1 |
Lunar
Eclipse 6/25/75 |
|
Z2 |
Demolition
of Hotel Hickory |
|
Z3 |
The
Sun – Prominences and Flares |
|
Z4 |
Irreversibility
& Fluctuations, I |
|
Z5 |
Irreversibility
& Fluctuations, II |
3¾ IPS
AUDIO |
| The
Wilson Series: Footnotes to Science |
|
Reel
01 Hippocrates,
Doctor Who Kept His Patients in Good
Humor |
|
Reel
02 Aristotle,
The Man Who Knew Something Abut
Everything |
|
Reel
03 Euclid,
A Man Who Knew All The Angles |
|
Reel
04 Archimedes,
The Man Who Could Have Moved the
Earth |
|
Reel
05 Ptolmey,
A Man Who Is Famous Because Hi Was
Wrong |
|
Reel
06 Dr.
Claudius Galen, The Wonder Worker of
Pergamum |
|
Reel
07 Roger
Bacon, Who Believed a Man Has a
Right to Be Wrong |
|
Reel
08 Leonardo
da Vinci, Painter Who Dreamed that
Man Could Fly |
|
Reel
09 Copernicus,
Man Who Wouldn't Teach What He
Didn’t Believe |
|
Reel
10 Paracelsus,
A Man Who Was Born Too Soon |
|
Reel
11 Andreas
Vesalius, The Boy Who Bettered His
Instructor |
|
Reel
12 Tycho
Brahe, The First Man To Be Honored
on Mars |
LASER
DISC |
|
Milestones
of the 20th Century, from
WWI to Watergate, with teacher’s
guide |
VHS |
VHS
- Mechanical
Universe Video Series |
|
1 |
Introduction
To Mechanical Universe |
|
2 |
The
Law Of Falling Bodies |
|
3 |
Derivatives |
|
4 |
Inertia |
|
5 |
Vectors |
|
6 |
Newton's
Laws |
|
7 |
Integration |
|
8 |
The
Apple And The Moon |
|
9 |
Moving
In Circles |
|
10 |
Fundamental
Forces |
|
11 |
Gravity,
Electricity And Magnetism |
|
12 |
The
Millikan Experiment |
|
13 |
Conservation
Of Energy |
|
14 |
Potential
Energy |
|
15 |
Conservation
Of Momentum |
|
16 |
Harmonic
Motion |
|
17 |
Waves |
|
18 |
Waves |
|
19 |
Angular
Momentum |
|
20 |
Torques
And Gyroscopes |
|
21 |
Kepler's
Three Laws |
|
22 |
The
Kepler Problem |
|
23 |
Energy
And Eccentricity |
|
24 |
Navigating
In Space |
|
25 |
Kepler
To Einstein |
|
26 |
Harmony
Of The Spheres |
|
27 |
Beyond
The Mechanical Universe |
|
28 |
Static
Electricity |
|
29 |
The
Electric Field |
|
30 |
Potentials
And Capacitors |
|
31 |
Voltage,
Energy And Force |
|
32 |
The
Electric Battery |
|
33 |
Electric
Circuits |
|
34 |
Magnetism |
|
35 |
The
Magnetic Field |
|
36 |
Vector
Fields And Hydrodynamics |
|
37 |
Electromagnetic
Induction |
|
38 |
Alternating
Currents |
|
39 |
Maxwell's
Equations |
|
40 |
Optics |
|
41 |
Michelson-Morley
Experiment |
|
42 |
The
Lorentz Transformation |
|
43 |
Velocity
And Time |
|
44 |
Mass,
Momentum, Energy |
|
45 |
Temperature
And Gas Laws |
|
46 |
Engine
Of Nature |
|
47 |
Entropy |
|
48 |
Low
Temperatures |
|
49 |
Atoms |
|
50 |
Particles
And Waves |
|
51 |
Atoms
To Quarks |
|
52 |
The
Quantum Mechanical Universe |
VHS
- ZTEC
The Miller Collection Physics
Single-Concept Films |
|
I.
Mechanics |
|
1 |
Tacoma
Narrows Bridge Collapse (2:52) |
|
2 |
Inertial
Forces—Translational Acceleration
(1:15)
|
|
3 |
Inertial
Forces—Centripetal Acceleration
(2:02)
|
|
4 |
The
Wilberforce Pendulum (2:34)
|
|
5 |
Measurement
of “G”—The Cavendish
Experiment (2:14)
|
|
6 |
Coupled
Oscillators—Equal Masses (2:00) |
|
7 |
Coupled
Oscillators—Unequal Masses (2:10) |
|
II.
Waves |
|
8 |
Nonrecurrent
Wavefronts (1:57) |
|
9 |
Diffraction—Single
Slit (1:52) |
|
10 |
Diffraction—Double
Slit (2:00) |
|
11 |
Resolving
Power (1:58) |
|
12 |
Michelson
Interferometer (2:27) |
|
13 |
Temperature
Waves (2:04) |
|
III.
Molecular, Atomic and Nuclear
Physics |
|
14 |
Critical
Temperature (2:14) |
|
15 |
Ferromagnetic
Domain Wall Motion (2:24) |
|
16 |
Paramagnetism
of Liquid Oxygen (2:20) |
|
17 |
Absorption
Spectra (1:55) |
|
18 |
Radioactive
Decay (2:31) |
|
19 |
Scintillation
Spectrometry (1:47) |
VHS
- ZTEC
Physics Single-Concept Films
Collection 1 |
|
Unit
I: Motion |
|
1 |
Acceleration
Due to Gravity I (1:30) |
|
2 |
Acceleration
Due to Gravity II (1:54)
|
|
3 |
Vector
Addition—Velocity of a Boat (1:56)
|
|
4 |
Analysis
of a Hurdle Race I (2:01)
|
|
5 |
Analysis
of a Hurdle Race II (1:56)
|
|
6 |
A
Matter of Relative Motion (1:55)
|
|
7 |
Galilean
Relativity—Ball Dropped from Mast
of Ship (1:31)
|
|
8 |
Galilean
Relativity—Object Dropped from
Aircraft (2:04)
|
|
9 |
Galilean
Relativity—Projectile Fired
Vertically (1:33)
|
|
Unit
II: Motion in the Heavens and Modern
Physics
|
|
10 |
Retrograde
Motion—Heliocentric Model (1:46)
|
|
11 |
Retrograde
Motion—Geocentric Model (1:40)
|
|
12 |
Kepler’s
Laws (1:11)
|
|
13 |
Jupiter
Satellite Orbit (2:01)
|
|
14 |
Thomson
Model of the Atom (2:03)
|
|
15 |
Rutherford
Scattering (2:14)
|
|
16 |
Collisions
with an Object of Unknown Mass
(1:55)
|
|
Unit
III: Momentum and Energy and Waves |
|
17 |
A
Method of Measuring Energy—Nails
Driven into Wood (1:40)
|
|
18 |
Gravitational
Potential Energy (2:10)
|
|
19 |
Conservation
of Energy—Pole Vault (2:06)
|
|
20 |
Conservation
of Energy—Aircraft Takeoff (1:40)
|
|
21 |
Recoil
(2:09) |
|
22 |
Find
the Speed of a Rifle Bullet I (1:42)
|
|
23 |
Find
the Speed of a Rifle Bullet II
(1:16)
|
|
24 |
Superposition
(1:42)
|
|
25 |
Vibrations
of a Wire (2:00)
|
|
26 |
Vibrations
of a Drum (1:50)
|
|
Unit
IV: Collisions |
|
27 |
One-Dimensional
Collisions I (1:48)
|
|
28 |
One-Dimensional
Collisions II (1:59)
|
|
29 |
Two-Dimensional
Collisions I (1:29)
|
|
30 |
Two-Dimensional
Collisions II (1:26)
|
|
31 |
Scattering
of a Cluster of Objects (1:10)
|
|
32 |
Dynamics
of a Billiard Ball (1:58)
|
|
33 |
Inelastic
One-Dimensional Collisions (2:06)
|
|
34 |
Inelastic
Two-Dimensional Collisions (2:00)
|
|
35 |
Colliding
Freight Cars (1:30)
|
VHS-
ZTEC
Physics Single-Concept Films
Collection 2 |
|
Mechanics |
|
1 |
One-Dimensional
Motion (1:45) |
|
2 |
Distance,
Time and Speed (2:13)
|
|
3 |
One-Dimensional
Acceleration (1:48)
|
|
4 |
Constant
Velocity and Uniform Acceleration
(2:07)
|
|
5 |
Newton’s
First and Second Laws (2:19)
|
|
6 |
Newton’s
Third Law (1:42)
|
|
7 |
Inertial
Forces—Translational Acceleration
(1:00)
|
|
8 |
Trajectories
(2:09)
|
|
9 |
Circular
Motion (2:13)
|
|
10 |
Inertial
Forces—Centripetal Acceleration
(1:38)
|
|
11 |
Dynamics
of Circular Motion (2:04)
|
|
12 |
Measurement
of “G”—The Cavendish
Experiment (2:13)
|
|
Collisions
and Periodic Motion |
|
13 |
Drops
and Splashes (2:17)
|
|
14 |
Center
of Mass (2:01)
|
|
15 |
Conservation
of Linear and Angular Momentum
(2:11)
|
|
16 |
Collisions
in Two Dimensions (1:40)
|
|
17 |
Conservation
of Momentum Inelastic Collisions
(2:15)
|
|
18 |
Simple
Harmonic Motion (1:27)
|
|
19 |
Simple
Harmonic Motion: The Stringless Pendulum
(1:54) |
|
20 |
Sand
Pendulum III, Drawings on a
Travelling Table (1:50) |
|
21 |
Sand
Pendulum IV, Slowing Down (2:05)
|
|
22 |
Sand
Pendulum V, Pouring Sand into Soda
Straws (1:44)
|
|
Behavior
of Gases |
|
23 |
Boyle’s
Law (1:20)
|
|
24 |
The
Mouse and the Candle (1:57)
|
|
25 |
Maxwellian
Speed Distribution (2:17)
|
|
26 |
Random
Walk and Brownian Motion (2:09)
|
|
27 |
Equipartition
of Energy (1:40)
|
|
28 |
Diffusion
(2:00)
|
|
29 |
Properties
of Gases (2:39)
|
|
30 |
Gas
Diffusion Rates (2:14)
|
|
Light
and Electricity and Magnetism |
|
31 |
Diffraction—Double
Slit (2:00)
|
|
32 |
Diffraction—Single
Slit (1:52)
|
|
33 |
Electostatic
Induction (2:21)
|
|
34 |
The
Van De Graaff Generator (2:10)
|
|
35 |
Charge
Distribution—The Faraday Ice Pail
Experiment (1:27) |
|
36 |
Field
as a Vector (1:33)
|
|
37 |
Field
vs. Current (1:58)
|
|
38 |
Field:
The Force On A Current (2:03)
|
VHS
- Mechanics |
|
Powers
of Ten (20 minutes) |
|
Video
Capture of a Bouncing Ball |
|
Crash
Tests (from TLC, 47 min.) |
|
Video
Encyclopedia of Physics
Demonstrations (short
demos) |
|
|
Motion
of Ball on Incline |
|
|
Spinning
Chain |
|
|
K-Squared
Spring Energy Dependence |
|
|
Bologna
Bottle
|
|
|
Adiabatic
Expansion
|
|
|
Tail
Wags Dog
|
|
|
Eggs
and Pizza Pan
|
|
|
Glass
breaking with Sound
|
|
Physics
You Can See: Demonstration Video (short
demos) |
|
|
Coin
and Feather
|
|
|
Monkey
and Gun
|
|
|
Test
Tube on a Wheel
|
|
|
Water
Whirled in a Circle
|
|
|
Equilibrium
|
|
|
Swivel
Hips
|
|
|
Collapse
a Can
|
|
|
Singing
Pipes and Singing Rod
|
|
|
Induced
Charges
|
|
|
Thompson
Apparatus
|
|
|
Electric
Current
|
|
NASA
Skylab: Conservation Laws in Zero-g (18
min.) |
|
NASA
Skylab: Fluids in Weightlessness (15
min.) |
VHS
- Oscillations and Waves |
|
Tacoma
Narrows Bridge Collapse |
|
Encyclopedia
Britannica: Standing Waves (11
minutes) |
|
Collage
of Motion, Potential & Kinetic
Energy, Wave Machine (30 min.) |
VHS
- Thermodynamics |
|
The
Way Things Go! (45 min.) |
|
Physics
Demonstrations in Heat, Part I (30
min.)
|
|
1 |
Thermal
Expansion: Liquids
|
|
2 |
Phase
Change Expansion: Ice Bomb
|
|
3 |
Thermal
Expansion: Breaking a Metal Rod
|
|
4 |
Linear
Expansion: Determination of a
|
|
5 |
Phase
Changes: Liquid O2
|
|
6 |
Cryogenics:
Changes in Material Properties
|
|
7 |
Cryogenics:
Organic Materials
|
|
8 |
Specific
Heat: Determination of Cp
|
|
Physics
Demonstrations in Heat, Part II (30
min.) |
|
1 |
Conduction:
Propagation in a Metal Rod
|
|
2 |
Conduction:
Material Comparison
|
|
3 |
Convection:
Projection of Currents
|
|
4 |
Convection:
Induced Fluid Flow
|
|
5 |
Radiation:
Transmission Using Parabolic Mirrors
|
|
6 |
Radiation:
Black Body Effects
|
|
7 |
Radiation:
Leslie’s Cube
|
|
8 |
Heat
Transfer: Boiling Inferno
|
|
Physics
Demonstrations in Heat, Part III (30
min.)
|
|
1 |
Mechanical
Equivalent of Heat: Bullet and the
Mass
|
|
2 |
Kinetic
Model: Temperature Effects on Gases
|
|
3 |
Induced
Phase Change: Solid N2
|
|
4 |
Cryophorous:
Cooling By Evaporation
|
|
5 |
Induced
Phase Change: Boiling by Cooling
|
|
6 |
Condensation:
Formation of a Cloud
|
|
7 |
Pressure
and Temperature: Piston in a
Cylinder
|
|
8 |
Entropy:
Mixing of a Dye
|
VHS
- Optics |
|
Encyclopedia
Britannica: Polarization of Light (11
min.) |
|
Rainbows,
Visible and Invisible (53
min.)
|
|
1 |
The
Science of Rainbows
|
|
2 |
Homemade
Rainbows
|
|
3 |
Rainbows
in the Eye of the Artist
|
|
4 |
Differing
Types of Rainbows
|
|
5 |
Discovery
of the Invisible Infrared Rainbow
|
|
Land’s
Color Theory (60 min., UNC PBS) |
|
Hidden
By Time: High-Speed Photography (30
min.) |
VHS
- Modern Physics |
|
Relativity
– Robert Ehrlich (30
min., no audio) |
|
1 |
Speed
of Projectiles, Sound and Light
|
|
2 |
Michelson-Morley
|
|
3 |
Simultaneity
is Relative
|
|
4 |
Length
Contraction
|
|
5 |
Time
Dilation
|
|
6 |
Doppler
Effect and Twin Paradox
|
|
7 |
World
Lines
|
|
8 |
Coordinate
Transformations
|
VHS - Astronomy |
|
NSF:
The Observatories (27 min.)
|
|
NASA
National Commission on Space (60
min.)
|
|
Crab
Nebula (original, 30 min.) /
NOVA: The Death of a Star (60
min.)
|
|
The
Astronomers: Searching for Black Holes (60 min., PBS)
|
|
Documentary
with Caltech’s Jesse Greenstein
and John Conway
|
|
Planet
X? (60
min. Lecture by Dr. Clyde Tembaugh)
|
|
Voyager
I: Journey to Jupiter (30
min., old film)
|
VHS - Math |
|
Mandelbrot
Sets and Julia Sets (1990
fractal animation, 120 min.)
|
|
Chaos (NOVA, BBC)
|
|
Math: Who Needs It? (1980’s, 30 min., Featuring
LA teacher
Jaime Escalante and
various celebrities.
)
|
|
Forgotten
Fundamentals of the Energy Crisis (Exp.
Growth, 27 min.) |
|
Forgotten
Fundamentals of the Energy Crisis (1984
edition, 40 min.)
|
VHS - Biography & History |
|
AAPT: Physics, It’s also Me! (14 min., college physics students)
|
|
NOVA: The Miracle of Life (1992,
60 min.)
|
|
NSF: The Keyhole of Eternity (scientists promoting science, 27
min.)
|
|
NSF: The New Engineers (26 min.)
|
|
NSF: Woman’s Work (27 min.)
|
|
Women
Scientists and Engineers of
Antiquity and the Middle Ages
(70
min., Lecture
by Dr. Caroline Herzenberg, Arizona
National Lab) |
|
NOVA: Women Astronauts (60
min.)
|
|
NOVA: Einstein (60
min.)
|
|
NOVA: Doc Egerton (60
min., Pioneer of high-speed
photography)
|
|
The
Musical Instrument Maker of
Williamsburg (54 min.)
|
|
Tribute
to 18th Century
Workmanship: Master Craftsman George
Wilson
|
|
Ten
Seconds that Changed the World: A-bomb Development (60
min.)
|
|
The
Machine that Changed the World I (60
min., UNC PBS, computers)
|
|
The
Machine that Changed the World IV (60 min., UNC PBS, computers)
|
|
The
Machine that Changed the World V (60
min., UNC PBS, computers)
|
|
The
Dream Machine (60
min., UNC PBS, computers)
|
VHS - Equipment |
|
Preventative
Maintenance of AV Equipment (60
min.,
Home-made
video includes slide, overhead and
film projectors
)
|
|
Physics
3/E: ABC News – Prentice Hall
Video Series
|
|
1 |
Walking
in Space (3:16)
|
|
2 |
Goodbye
Gallstones (11:46)
|
|
3 |
Laser
Dermatology (3:20)
|
|
4 |
Magnetic
Resonance Imaging (4:27)
|
|
5 |
The
Gamma Knife (3:27)
|
DVD Video
Encyclopedia of Physics
Demonstrations
DISC
ONE (Video Encyclopedia)
Chapter 1 Units and Vectors
Demo 01-01 Basic Units
Demo 01-02 Vector Addition
(Parallelogram
Demo 01-03 Vector Addition (Head to
Tail)
Demo 01-04 Vector Components
Demo 01-05 Vector Dot Product
Demo 01-06 Vector Cross Product
Demo 01-07 3-D Vector Components
Chapter 2 Linear Kinematics
Demo 01-08 Constant Velocity
Demo 01-09 Bulldozer on Moving Sheet
Demo 01-10 Rolling Ball Incline
Demo 01-11 Constant Acceleration
Demo 01-12 String and Weights Drop
Demo 01-13 Reaction Time Falling
Meter Stick
Demo 01-14 Guinea and Feather
Chapter 3 Linear Dynamics
Demo 01-15 String and Weight
Acceleration
Demo 01-16 Atwood’s Machine
Demo 01-17 Acceleration with Spring
Demo 01-18 Dropped Slinky
Demo 01-19 Candle in Dropped Jar
DISC TWO (Video Encyclopedia)
Chapter 4 Motion in a Plane
Demo 02-01 Shooter/Dropper
Demo 02-02 Monkey Gun
Demo 02-03 Vertical Gun on Car
Demo 02-04 Vertical Gun on
Accelerated Car
Demo 02-05 Air Table Parabolas
Demo 02-06 Range Gun
Demo 02-07 Velocity Vector Addition
Demo 02-08 Bulldozer on Moving Sheet
(2D)
Demo 02-09 Sliding Weights with
Triangle
Demo 02-10 Sailing Upwind
Demo 02-11 Local Vertical with
Acceleration
Chapter 5 Inertia
Demo 02-12 Shifted Air Track
Inertia
Demo 02-13 Inertia Ball
Demo 02-14 Foam Rock
Demo 02-15 Tablecloth Jerk
Demo 02-16 Eggs and Pizza Pan
Demo 02-17 Pencil and Plywood
Chapter 6 Action and Reaction
Demo 02-18 Reaction Gliders
Demo 02-19 Reaction Gliders Momentum
Conservation
Demo 02-20 Car on Rolling Board
Demo 02-21 Fan Car with Sail
Demo 02-22 CO2 Rocket
Demo 02-23 Water Rocket
Demo 02-24 Fire Extinguisher Wagon
Demo 02-25 Helicopter Rotor
Demo 02-26 See-Saw Reaction Carts
DISC THREE (Video Encyclopedia)
Chapter 7 Friction
Demo 03-01 Air Track
Friction
Demo 03-02 Static vs. Sliding
Friction
Demo 03-03 Area Dependence of
Friction
Demo 03-04 Weight Dependence of
Friction
Demo 03-05 Surface Dependence of
Friction
Demo 03-06 Stability of Rolling Car
Chapter 8 Work, Energy, and
Power
Demo 03-07 Pile Driver
Demo 03-08 Spring Pong Gun
Demo 03-09 Spring Jumper
Demo 03-10 X-Squared Spring Energy
Dependence
Demo 03-11 High Bounce Paradox
Demo 03-12 Energy Well Track
Demo 03-13 Galileo’s Pendulum
Demo 03-14 Bowling Ball Pendulum
Demo 03-15 Triple Track
Demo 03-16 Hand Cranked Generator
Demo 03-17 Generator Driven by
Falling Weight
Demo 03-18 Prony Brake
Chapter 9 Center of Mass
Demo 03-19 Stability
Demo 03-20 Irregular Object Center
of Mass
Demo 03-21 Center of Mass Disc
Demo 03-22 Chair on Pedestal
Demo 03-23 Clown on Rope
Demo 03-24 Double Cone on Incline
Demo 03-25 Loaded Disc
Demo 03-26 Toppling Cylinders
Demo 03-27 Air Table Center of Mass
DISC FOUR (Video Encyclopedia)
Chapter 10 Statics
Demo 04-01 Force Board
Demo 04-02 Clothesline
Demo 04-03 Load on Removable Incline
Demo 04-04 Pulley Advantage
Demo 04-05 Pulley and Scales
Demo 04-06 Simple Machines
Demo 04-07 Levers
Demo 04-08 Horizontal Boom
Demo 04-09 Arm Model
Demo 04-10 Torque Bar
Demo 04-11 Hinge Board
Demo 04-12 Torque Wrench
Demo 04-13 Torque Wheel
Demo 04-14 Balancing Meter Stick
Demo 04-15 Meter Stick on Fingers
Demo 04-16 Bridge and Truck
Demo 04-17 Roberval Balance
Demo 04-18 Ladder Forces
Demo 04-19 Broom Stand
Demo 04-20 Bed of Nails
Demo 04-21 Egg Crusher
DISC FIVE (Video Encyclopedia)
Chapter 11 Collisions
Demo 05-01 Colliding Balls
Demo 05-02 Equal and Unequal Mass
Collisions
Demo 05-03 Elastic and Inelastic
Collisions
Demo 05-04 Coefficient of
Restitution
Demo 05-05 High Bounce
Demo 05-06 Air Table Collisions
(Equal Mass)
Demo 05-07 Air Table Collisions
(Unequal Mass)
Demo 05-08 Air Table Collisions
(Inelastic)
Demo 05-09 Egg in Sheet
Demo 05-10 Pile Driver with Foam
Rubber
Demo 05-11 Ballistic Pendulum
Chapter 12 Rotational
Kinematics
Demo 05-12 Radian Disc
Demo 05-13 Cycloid Generator
Demo 05-14 Circle with Gap
Demo 05-15 Rotating Disc with
Erasers
Demo 05-16 Spinning Disc with Water
Demo 05-17 Ball on Cord
Demo 05-18 Coin on a Coat Hanger
Demo 05-19 Plane on String
Demo 05-20 Roundup
Demo 05-21 Whirling Bucket of Water
Demo 05-22 Centrifuge Hoops
Demo 05-23 Water and Mercury
Centrifuge
Demo 05-24 Spinning Chain
Demo 05-25 Rotating Rubber Wheel
Demo 05-26 Centrifugal Governor
DISC SIX (Video Encyclopedia)
Chapter 13 Rotational
Acceleration and Energy
Demo 06-01 Angular
Acceleration Machine
Demo 06-02 Bike Wheel Angular
Acceleration
Demo 06-03 Air Rotator With
Deflectors
Demo 06-04 Rolling Bodies on Incline
Demo 06-05 Spool on Incline
Demo 06-06 Bike Wheel on Incline
Demo 06-07 Spool with Wrapped Ribbon
Demo 06-08 Maxwell’s Yoyo
Demo 06-09 Loop the Loop
Demo 06-10 Penny Drop Stick
Demo 06-11 Hinged Stick and Ball
Demo 06-12 Center of Percussion
Demo 06-13 Foucault Pendulum
Demo 06-14 Coriolis Effect
DISC SEVEN (Video Encyclopedia)
Chapter 14 Conservation of
Angular Momentum
Demo 07-01 Marbles and
Funnel
Demo 07-02 Train on a Circular Track
Demo 07-03 Tail Wags Dog
Demo 07-04 Rotating Stool with
Weights
Demo 07-05 Rotating Stool and Long
Bar
Demo 07-06 Rotating Stool and
Bicycle Wheel
Demo 07-07 Gyroscopic Stability
Demo 07-08 Wheel and Brake
Demo 07-09 Satellite Derotator
Chapter 15 Precession
Demo 07-10 Bike Wheel
Precession
Demo 07-11 Gyroscope with Adjustable
Weights
Demo 07-12 Bike Wheel on Gimbals
Demo 07-13 Double Bike Wheel
Demo 07-14 Motorized Gyroscope
Chapter 16 Rotational
Phenomena
Demo 07-15 Static/Dynamic
Balance
Demo 07-16 Football Spin
Demo 07-17 Tippy Top
Demo 07-18 Ship Stabilizer
Demo 07-19 Spinning Rod and Hoop on
Wire
Demo 07-20 Stable and Unstable Axes
of Rotation
Chapter 17 Gravitation
Demo 07-21 Sections of a
Cone
Demo 07-22 Ellipse Drawing Board
Demo 07-23 Cavendish Balance
DISC EIGHT (Video Encyclopedia)
Chapter 18 Elasticity
Demo 08-01 Hooke’s Law
Demo 08-02 Spring in Series and
Parallel
Demo 08-03 Torsion Rod
Demo 08-04 Elastic Limits
Demo 08-05 Young’s Modulus
Demo 08-06 Bending Beams
Demo 08-07 2:1 Scaling
Demo 08-08 Bologna Bottle
Demo 08-09 Elasticity at Low
Temperatures
Chapter 19 Oscillations
Demo 08-10 Tuning Fork with
Light
Demo 08-11 Mass on Spring
Demo 08-12 Air Track Simple Harmonic
Motion
Demo 08-13 Torsion Pendulum
Demo 08-14 Different Mass Pendula
Demo 08-15 4:1 Pendula
Demo 08-16 Hoops and Arcs
Demo 08-17 Pendulum with Large
Amplitude
Demo 08-18 Physical Pendulum
Demo 08-19 Variable Angle Pendulum
Demo 08-20 Circular Motion vs.
Spring and Weight
Demo 08-21 Circular Motion vs.
Pendulum
Demo 08-22 Phase Shift
Demo 08-23 Periodic Non-Simple
Harmonic Motion
Demo 08-24 Inertia Balance
Demo 08-25 Pendulum Waves
Demo 08-26 Lissajous Figures
DISC NINE (Video Encyclopedia)
Chapter 20 Resonance
Demo 09-01 Bowling Ball
Pendulum Resonance
Demo 09-02 Resonant Driven Pendula
Demo 09-03 Driven Spring and Weight
Demo 09-04 Pump Pendulum
Demo 09-05 Reed Tachometer
Demo 09-06 Glass Breaking with Sound
Demo 09-07 Coupled Pendula
Demo 09-08 Wilberforce Pendulum
Chapter 21 Mechanical Waves
Demo 09-09 Wave on Rope
Demo 09-10 Pulse on Moving Chain
Demo 09-11 Tension Dependence of
Wave Speed
Demo 09-12 Torsional Waves
Demo 09-13 Wave Speed
Demo 09-14 Longitudinal Wave Model
Demo 09-15 Longitudinal Slinky Waves
Demo 09-16 Wave Superposition
Demo 09-17 Reflection of Waves
Demo 09-18 Spring Wave Reflection
Demo 09-19 Wave Coupling
Demo 09-20 Refraction of Water Waves
Demo 09-21 Single Slit Diffraction
of Water Waves
Demo 09-22 Double Slit Interference
of Water Waves
Demo 09-23 Moire Pattern
Chapter 22 Standing Waves
Demo 09-24 Longitudinal
Standing Waves
Demo 09-25 Slinky Standing Waves
Demo 09-26 Standing Waves
Demo 09-27 Three Tensions Standing
Waves
Demo 09-28 Rubber Tube Standing
Waves
Demo 09-29 Drumhead
Demo 09-30 Chladni Plates
DISC TEN (Video Encyclopedia)
Chapter 23 Sound Production
Demo 10-01 Guitar and Scope
Demo 10-02 Sonometer
Demo 10-03 Tuning Forks
Demo 10-04 Adjustable Tuning Fork
Demo 10-05 Rectangular Bar
Oscillations
Demo 10-06 High Frequency Metal Bars
Demo 10-07 Xylophone Bars
Demo 10-08 Singing Rods
Chapter 24 Properties of Sound
Demo 10-09 Siren in Vacuum
Demo 10-10 Siren Disc
Demo 10-11 Gear and Card
Demo 10-12 Cutaway Speaker
Demo 10-13 Sound Velocity at
Different Temperatures
Demo 10-14 Sound in Helium
Demo 10-15 Fourier Synthesizer
Demo 10-16 Vocal Formants
Demo 10-17 Acoustic Coupling
Demo 10-18 Tuning Fork Beats
Demo 10-19 Beats with Speaker and
Oscilloscope
Demo 10-20 Two Speaker Interference
Demo 10-21 Doppler Effect
DISC ELEVEN (Video Encyclopedia)
Chapter 25 Standing Sound Waves
Demo 11-01 Resonance Tube
with Piston
Demo 11-02 Resonance Tubes (Three
Lengths)
Demo 11-03 Kundt’s Tube
Demo 11-04 Resonance Tube
Demo 11-05 Open and Closed End Pipes
Demo 11-06 Slide Whistle
Demo 11-07 Singing Pipes
Demo 11-08 Tuning Forks on Resonant
Boxes
Demo 11-09 Helmholtz Resonators
Chapter 26 Gas Pressure
Demo 11-10 Mercury Barometer
in Vacuum
Demo 11-11 Aneroid Barometer in
Vacuum
Demo 11-12 Magdeburg Hemispheres
Demo 11-13 Adhesion Plates
Demo 11-14 Crush Can
Demo 11-15 Vacuum Bazooka
Demo 11-16 Barrel Crush
Demo 11-17 Air Pressure Lift
Demo 11-18 Inertia Shingles
Demo 11-19 Rubber Sheet Lifting
Chair
DISC TWELVE (Video Encyclopedia)
Chapter 27 Fluid Pressure
Demo 12-01 Same Level Tubes
Demo 12-02 Pressure vs. Depth
Demo 12-03 Pressure vs. Depth in
Water and Alcohol
Demo 12-04 Pressure Independent of
Direction
Demo 12-05 Water/Air Compression
Demo 12-06 Water and Mercury U-tube
Demo 12-07 Hydraulic Press
Demo 12-08 Hydrostatic Paradox
Chapter 28 Buoyancy
Demo 12-09 Hydrometer
Demo 12-10 Weight of Air
Demo 12-11 Buoyant Force
Demo 12-12 Archimedes’ Principle
Demo 12-13 Board and Weights Float
Demo 12-14 Different Density Wood
Demo 12-15 Density Ball
Demo 12-16 Density Balls in Beans
Demo 12-17 Battleship in Bathtub
Demo 12-18 Buoyancy in Various
Liquids
Demo 12-19 Floating Square Bar
Demo 12-20 Helium Balloon in Glass
Jar
Demo 12-21 Helium Balloon in Liquid
Nitrogen
Demo 12-22 Cartesian Diver
DISC THIRTEEN (Video
Encyclopedia)
Chapter 29 Fluid Dynamics
Demo 13-01 Pitot Tube
Demo 13-02 Flettner Rotor
Demo 13-03 Curve Balls
Demo 13-04 Floating Ball in Air Jet
Demo 13-05 Suspended Plate in Air
Jet
Demo 13-06 Suspended Parallel Cards
Demo 13-07 Vortex Cannon
Demo 13-08 Un-mixing
Demo 13-09 Tornado Tube
Demo 13-10 Siphon
Demo 13-11 Syringe Water Velocity
Demo 13-12 Uniform Pressure Drop
Demo 13-13 Bernoulli’s Principle
Demo 13-14 Water Hammer
Demo 13-15 Toricelli’s Tank
Demo 13-16 Accelerometers
Demo 13-17 Paraboloid of Revolution
Demo 13-18 Rotating Water Troughs
Chapter 30 Surface Tension
Demo 13-19 Surface Tension
Disc
Demo 13-20 Floating Metal Sheet
Demo 13-21 Soap Film Pull-up
Demo 13-22 Soap Film Shapes
Demo 13-23 Two Soap Bubbles
Demo 13-24 Minimum Energy Thread
Demo 13-25 Capillary Action
Demo 13-26 Capillary Tubes
DISC FOURTEEN (Video
Encyclopedia)
Chapter 31 Viscosity
Demo 14-01 Air Friction
Demo 14-02 Viscous Drag
Demo 14-03 Ball Drop
Demo 14-04 Gas Viscosity Change with
Temperature
Demo 14-05 Viscosity of Alcohol at
Low Temperatures
Demo 14-06 Oil Viscosity
Chapter 32 Thermal Phenomena
Demo 14-07 Thermal Expansion
of Wire
Demo 14-08 Bimetallic Strip
Demo 14-09 Thermostat Model
Demo 14-10 Pin Breaker
Demo 14-11 Thermal Expansion
Demo 14-12 Thermal Expansion of Air
Demo 14-13 Thermal Expansion of
Water
Demo 14-14 Negative Expansion
Coefficient of Water
Demo 14-15 Dust Explosion
Demo 14-16 Scaling Cube
Demo 14-17 Specific Heat
Demo 14-18 Specific Heat with Rods
and Wax
Demo 14-19 Boiling Water in a Paper
Cup
Demo 14-20 Water Balloon Heat
Capacity
Chapter 33 Heat Transfer
Demo 14-21 Thermal
Conductivity
Demo 14-22 Leidenfrost Phenomenon
Demo 14-23 Radiometer
Demo 14-24 Two Can Radiation
Demo 14-25 Radiation Cube
Demo 14-26 Insulation (Dewar Flasks)
Demo 14-27 Convection Currents
DISC FIFTEEN (Video Encyclopedia)
Chapter 34 Laws of Thermodynamics
Demo 15-01 Drill and Dowel
Demo 15-02 Mechanical Equivalent of
Heat
Demo 15-03 CO2 Expansion Cooling
Demo 15-04 Adiabatic Expansion
Demo 15-05 Fire Syringe
Demo 15-06 Stirling Engine
Demo 15-07 Hero’s Engine
Demo 15-08 Cork Popper
Chapter 35 Phase Changes
Demo 15-09 Liquid Nitrogen
in Balloon
Demo 15-10 Boil Water Under Reduced
Pressure
Demo 15-11 CO2 Critical Point
Demo 15-12 Drinking Bird
Demo 15-13 Freezing by Boiling
Demo 15-14 Cryophorus
Demo 15-15 Ice Bomb
Demo 15-16 Regelation
Demo 15-17 Helium and CO2 Balloons
in Liquid Nitrogen
Demo 15-18 Sublimation of CO2
Demo 15-19 Slime Ball
DISC SIXTEEN (Video Encyclopedia)
Chapter 36 Kinetic Theory
Demo 16-01 Pressure vs.
Volume
Demo 16-02 Pressure vs. Temperature
Demo 16-03 Temperature Increase
Simulation
Demo 16-04 Pressure vs. Volume
Simulation
Demo 16-05 Equipartition of Energy
Simulation
Demo 16-06 Mercury Kinetic Theory
Demo 16-07 Brownian Motion
Demo 16-08 Brownian Motion
Simulation
Demo 16-09 Diffusion
Demo 16-10 Diffusion Simulation
Demo 16-11 Bromine Diffusion
Demo 16-12 Gaussian Curve
Demo 16-13 Free Expansion Simulation
Chapter 37 Crystals and Low
Temperatures
Demo 16-14 Superconductors
Demo 16-15 Crystal Models
Demo 16-16 Faults in Crystal
Chapter 38 Thermoelectricity
Demo 16-17 Thermistor
Demo 16-18 Thermoelectric Magnet
Demo 16-19 Thermoelectric Heat Pump
Demo 16-20 Thermocouple
Chapter 39 Electric Charges
Demo 16-21 Electrostatic
Rods
Demo 16-22 Electrostatic Rod and
Cloth
Demo 16-23 Electrostatic Ping-Pong
Deflection
Demo 16-24 Electrostatic Ping-Pong
Balls
Demo 16-25 Conductors and Insulators
Demo 16-26 Piezoelectric Sparker
DISC SEVENTEEN (Video
Encyclopedia)
Chapter 40 Electrostatic
Induction
Demo 17-01 Electrostatic
Induction
Demo 17-02 Metal Rod Attraction
Demo 17-03 Electrophorus
Demo 17-04 Induction Generator
Demo 17-05 Kelvin Water Dropper
Demo 17-06 Wooden Needle
Chapter 41 Electric Fields
Demo 17-07 Van de Graaff
Generator
Demo 17-08 Van de Graaff with
Streamers
Demo 17-09 Van de Graaff and Wand
Demo 17-10 Electric Field
Demo 17-11 Lightning Rod
Demo 17-12 Pinwheel
Demo 17-13 Point and Candle
Demo 17-14 Faraday Cage
Demo 17-15 Faraday Ice Pail
Demo 17-16 Smoke Precipitation
Demo 17-17 Electron Discharge Tube
with Wheel
Chapter 42 Resistance and DC
Circuits
Demo 17-18 Resistance Wires
Demo 17-19 Ohm’s Law
Demo 17-20 Heated Wire
Demo 17-21 Cooled Wire
Demo 17-22 Electron Motion Model
Demo 17-23 Series/Parallel Resistors
Demo 17-24 Series/Parallel Light
Bulbs
Demo 17-25 Wheatstone Bridge
Demo 17-26 Galvanometer as Voltmeter
and Ammeter
Demo 17-27 Conservation of Current
DISC EIGHTEEN (Video
Encyclopedia)
Chapter 43 Voltage Drops and 12R
Losses
Demo 18-01 Voltage Drop
Along Wire
Demo 18-02 Sum of IR Drops
Demo 18-03 Internal Resistance of
Batteries
Demo 18-04 Loading by a Voltmeter
Demo 18-05 Voltage Drops in House
Wires
Demo 18-06 I2R Losses
Demo 18-07 Hot Dog Frying
Chapter 44 Non-Ohmic
Resistance
Demo 18-08 Neon Bulb
Resistivity
Demo 18-09 Carbon and Tungsten Lamps
Demo 18-10 Diode
Demo 18-11 Rectifier Circuit
Demo 18-12 Transistor Amplifier
Chapter 45 Electrochemical
Effects
Demo 18-13 Conductivity of
Solutions
Demo 18-14 Battery Effect
Demo 18-15 Pickle Frying
Demo 18-16 Electrolysis
Demo 18-17 Electroplating
Chapter 46 Capacitance and RC
Circuits
Demo 18-18 Leyden Jars on
Toepler Holtz
Demo 18-19 Parallel Plate Capacitor
Demo 18-20 Parallel Plate Capacitor
Dielectrics
Demo 18-21 Rotary Capacitor
Demo 18-22 Battery and Separable
Capacitor
Demo 18-23 Exploding Capacitor
Demo 18-24 Force on a Dielectric
Demo 18-25 Dissectible Capacitor
Demo 18-26 Grounded Leyden Jar
Demo 18-27 Series/Parallel
Capacitors
Demo 18-28 RC Charging Curve
Demo 18-29 Relaxation Oscillator
DISC NINETEEN (Video
Encyclopedia)
Chapter 47 Magnetism and Magnetic
Fields
Demo 19-01 Magnetic
Attraction/Repulsion
Demo 19-02 Lodestone
Demo 19-03 Dip Needle
Demo 19-04 Magnetic Fields Around
Bar Magnets
Demo 19-05 Broken Magnet
Demo 19-06 Lowest Energy
Configuration
Chapter 48 Magnetic Fields
From Currents
Demo 19-07 Right-Hand Rule
Demo 19-08 Oersted’s Needle
Demo 19-09 Magnetic Fields Around
Currents
Demo 19-10 Solenoid Bar Magnet
Demo 19-11 Large Electromagnet
Demo 19-12 Electromagnet with 1.5-V
Battery
Demo 19-13 Pinch Wires
Demo 19-14 Biot-Savart Law
Chapter 49 Magnetic Properties
of Matter
Demo 19-15 Magnetizing Iron
by Contact
Demo 19-16 Magnetic Domain Model
Demo 19-17 Magnetizing Iron
Demo 19-18 Demagnetizing Iron by
Hammering
Demo 19-19 Barkhausen Effect
Demo 19-20 Magnetic Shielding
Demo 19-21 Permalloy in Earth’s
Field
Demo 19-22 Paramagnetism and
Diamagnetism
Demo 19-23 Dysprosium in Liquid
Nitrogen
Demo 19-24 Curie Nickel
Demo 19-25 Curie Temperature Wheel
DISC TWENTY (Video Encyclopedia)
Chapter 50 Magnetic Forces on
Currents
Demo 20-01 Jumping Wire
Demo 20-02 Ampere’s Frame
Demo 20-03 Deflected Electron Beam
Demo 20-04 Fine Beam Tube
Demo 20-05 Barlow’s Wheel
Demo 20-06 Ion Motor
Demo 20-07 AC/DC Magnetic Contrast
Demo 20-08 D’Arsonval Meter
Demo 20-09 DC Motor
Demo 20-10 Hall Effect
Chapter 51 Electromagnetic
Induction
Demo 20-11 Wire and Magnet
Demo 20-12 10/20/40 Coils with
Magnet
Demo 20-13 Earth Coil
Demo 20-14 Faraday Disc
Demo 20-15 AC/DC Generator
Demo 20-16 Current-Coupled Pendula
Demo 20-17 Inductive Coil with Lamp
Demo 20-18 Thomson’s Flying Ring
Demo 20-19 Faraday Repulsion Coil
Demo 20-20 Two Coils
Demo 20-21 Induction Coil
Demo 20-22 Vertical Primary and
Secondary Coils
Demo 20-23 Transformers
Chapter 52 Eddy Currents
Demo 20-24 Eddy Current
Pendulum
Demo 20-25 Arago’s Disc
Demo 20-26 Eddy Current Tubes
Demo 20-27 Electromagnetic Can
Breaker
Chapter 53 Hysteresis
Demo 20-28 Hysteresis Curve
Demo 20-29 Hysteresis Waste Heat
DISC TWENTY-ONE (Video
Encyclopedia)
Chapter 54 Inductance And LR
Circuits
Demo 21-01 Inductance Spark
Demo 21-02 Inductor with Lamp on AC
Demo 21-03 Lamps in Parallel with
Solenoid
Chapter 55 LRC Circuits
Demo 21-04 Driven LRC
Circuit
Demo 21-05 Damped LRC Oscillation
Demo 21-06 Tesla Coil
Chapter 56 Electromagnetic
Waves
Demo 21-07 Light in a Vacuum
Demo 21-08 Straight Line Propagation
Demo 21-09 Pinhole Camera
Demo 21-10 Inverse Square Law
Demo 21-11 Radio Waves
Demo 21-12 Impossible Triangle
Demo 21-13 Lecher Wires
Demo 21-14 Microwave Unit
Demo 21-15 Microwave Standing Waves
Demo 21-16 Microwave Absorption
Demo 21-17 Radio in Faraday Cage
Chapter 57 Plane Mirrors
Demo 21-18 Microwave
Reflection
Demo 21-19 Diffuse/Specular
Reflection
Demo 21-20 Angles of Incidence and
Reflection
Demo 21-21 Location of Image
Demo 21-22 Parity Reversal in a
Mirror
Demo 21-23 Hinged Mirrors
Demo 21-24 Corner Reflector
Demo 21-25 Barbershop Mirrors
Demo 21-26 Mirror Box
DISC TWENTY-TWO (Video
Encyclopedia)
Chapter 58 Curved Mirrors
Demo 22-01 Concave and
Convex Mirrors
Demo 22-02 Spherical Aberration in a
Mirror
Demo 22-03 Energy at a Focal Point
Demo 22-04 Heat Focusing
Demo 22-05 Large Concave Mirror
Chapter 59 Refraction and
Internal Reflection
Demo 22-06
Refraction/Reflection from Plastic
Block
Demo 22-07 Small Refraction Tank
Demo 22-08 Acrylic/Lead Glass
Refraction
Demo 22-09 Three Different Prisms
Demo 22-10 Disappearing Eye Dropper
Demo 22-11 Critical Angle/Total
Internal Reflection
Demo 22-12 Silver Soot Ball
Demo 22-13 Light Pipes
Demo 22-14 Optical Path in Fibers
Demo 22-15 Laser Waterfall
Chapter 60 Lenses
Demo 22-16 Real Image
Formation
Demo 22-17 Lens Magnification
Demo 22-18 Ray Tracing with Lenses
Demo 22-19 Fresnel Lens
Demo 22-20 Fillable Air Lenses
Demo 22-21 Spherical Aberration
Demo 22-22 Chromatic Aberration
Demo 22-23 Astigmatism
Demo 22-24 Off Axis Distortion
DISC TWENTY-THREE (Video
Encyclopedia)
Chapter 61 Diffraction
Demo 23-01 Microwave
Diffraction
Demo 23-02 Single Slit Diffraction
Demo 23-03 Single Slit Diffraction
(Cornell Slides)
Demo 23-04 Thin Wire Diffraction
Demo 23-05 Poisson’s Bright Spot
Demo 23-06 Shadow of Needle
Demo 23-07 Pin Hole Diffraction
Demo 23-08 Knife Edge Diffraction
Demo 23-09 Resolving Power
Chapter 62 Interference
Demo 23-10 Microwave Double
Slit Interference
Demo 23-11 Double Slit Interference
Demo 23-12 Multiple Slit
Interference
Demo 23-13 Interference Gratings
Demo 23-14 Glass Plates in Sodium
Light
Demo 23-15 Newton’s Rings
Demo 23-16 Interference Filters
Demo 23-17 Pohl’s Mica Sheet
Demo 23-18 Soap Film Interference
Demo 23-19 Microwave Interferometer
Demo 23-20 Michelson Interferometer
with White Light
Demo 23-21 Holograms
Chapter 63 Spectra And Color
Demo 23-22 Infrared in
Spectrum
Demo 23-23 Colors in Spectral Light
Demo 23-24 Rainbow Disc
Demo 23-25 Newton’s Color Disc
Demo 23-26 Additive Color Mixing
DISC TWENTY-FOUR (Video
Encyclopedia)
Chapter 64 Polarization
Demo 24-01 Polaroid Sheets
Crossed and Uncrossed
Demo 24-02 Polaroids Cut at 45
Degrees
Demo 24-03 Rotation by Polarizing
Filter
Demo 24-04 Microwave Polarization
Demo 24-05 Polarization by
Reflection
Demo 24-06 Polarization by Double
Reflection
Demo 24-07 Polarization by
Scattering
Demo 24-08 Artificial Sunset
Chapter 65 Optical Activity
Demo 24-09 Optical Activity
in Cellophane Tape
Demo 24-10 Polarized Lion
Demo 24-11 Optical Activity in Corn
Syrup
Demo 24-12 Polage
Demo 24-13 Photoelastic Sress
Figures
Demo 24-14 Barbershop Sugar Tube
Demo 24-15 Quarter Wave Plate
Demo 24-16 Double Refraction in
Calcite
Demo 24-17 Liquid Crystal Sheets
Chapter 66 Quantum Physics
Demo 24-18 Radiation
Spectrum of a Hot Object
Demo 24-19 Photoelectric Effect in
Zinc
Demo 24-20 X-ray Ionization
Demo 24-21 Solar Cells
Demo 24-22 Microwave Barrier
Penetration
Demo 24-23 Electron Diffraction
Demo 24-24 Millikan Oil Drop
Demo 24-25 Bichsel Boxes
DISC TWENTY-FIVE (Video
Encyclopedia)
Chapter 67 Atomic Physics
Demo 25-01 Emission Spectra
Demo 25-02 Spectral Absorption by
Sodium Vapor
Demo 25-03 Thermionic Emission
Demo 25-04 Electron Discharge Tube
with Cross
Demo 25-05 Discharge Tube and Vacuum
Pump
Demo 25-06 Plasma Tube
Demo 25-07 Flame Salts
Demo 25-08 Jacob’s Ladder
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