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The following summary was provided by Hugo Graumann in responseto the committee's questions about the status of the Junior Labs.
QUESTION: Can any of the experiments we have be reworked easilyinto a 2 hour window?
ANSWER:The short answer to your question is that we dont have any experiments thatwill fit into 2 hours without a huge reworking of the writeup. That is mostlya do-over. I think for the most part, all of the experimental apparatus could bechanged to support a 2 hour window if there are sufficient numbers of apparatusavailable for three labs in parallel, but the current writeups and procedures,would all need to be started over. Error analysis could be removed entirely.That will save about 30-40 minutes per experiment. But that is not enough.The procedures will need to be changed as well. Some, but not all, of theexperiments can be changed take advantage of computer aided data acquisition.This will require more changes to the writeup. Maybe some paragraphs andpictures could be lifted from the existing writeup. Perhaps the theorysections of existing experiments could be used nearly intact. But thatis only true if labatorial writeups will have a theory section. The 3 hourlabs are all written in a standard format that a previous laboratory committeereached consensus on. This means that all the labs are designed with thesame assumptions and targets. For example, the writeup length is tuned torequire an average student to prepare for at least 1 hour for a three hourlab. For a 2 hour labatorial we havent even discussed how much preparationtime would be required, but likely less. However, changing the preparationtime directly impacts how much prose is written down and therefore affectshow much of an existing writeup can be transferred into a labatorial and alsodetermines how extensive a theory section would be. More details below onthe apparatus that could support reworking into 2 hour format.
QUESTION: Would it be possible to get a summar of what labs etc. wehave available as well as their status?
ANSWER:Some of the lists you seek already exist, others will take a bit oftime to put together because they are in a new area for us.
The lists you have requested follow below.
1) Here is the updated list of all the experiments operational or nearly so for the physics junior labs.
January 2008Operational Experiments
AstronomyAstrophysical craters (24 sets)Brightness of stars (16 sets)
Electricity and MagnetismAC and Pulse measurements and sources (24 sets)*Axial and non-axial magnetic fields of a coil (5 sets)Current balance (16 sets)E/M experiment (8 sets)Electric field mapping (16 sets)Electric motor and generator (16 sets)Electromagnetic induction (6 sets)Hall effect and magnetic hysteresis (6 sets)Kirchoffs laws (24 sets)Magnetic fields (6 sets)Magnetic force (6 sets)Nonlinear resistance measurement (6 sets)Oscilloscope and multimeter (16 sets)Parallel plate capacitors (16 sets)Physical inductor (6 sets)Power supplies, lights, and switches (16 sets)*Radial and non-radial magnetic fields of a coil (5 sets)Resistance measurements (24 sets)RLC resonance (6 sets)Tangent Galvanometer (6 sets)
Fluid MechanicsArchimede's principle (16 sets)Bernoulli's principle (16 sets)Poiseuille's law (16 sets)Balloon physics (16 sets)
Laboratory PracticeError analysis and metrology (6 sets)*
Linear regression (32 computers)*Measurements and uncertainties (40 sets)*
MechanicsBifilar suspension (16 sets)Cantilever beams (16 sets)Centripetal acceleration (16 sets)Centripetal force (16 sets)Coefficient of Restitution (24 sets)Collisions and conserved quantities (24 sets)Compound pendulum (16 sets)Conservation of energy (24 sets)Coupled harmonic oscillators (6 sets)Damped mechanical oscillators (6 sets)Force and circular motion (16 sets)Hanging chain (16 sets)Hookes law (16 sets)Impact craters (24 sets)Inclined Atwoods machine (24 sets)Kater's pendulum (16 sets)Moment of inertia (24 sets)Newtons second law (24 sets)Planar pendulum (18 sets)Projectile motion (18 sets)Pulley systems (6 sets)Simple harmonic motion and the pendulum (18 sets)Static equilibrium and the addition of forces (16 sets)Torque and the beam balance (16 sets)Torsional oscillations (18 sets)Uniform circular motion (16 sets)
Modern PhysicsAbsorption and dosage of radiation (6 sets)*Balmer series (12 sets)Black body radiation (4 sets)Bragg diffraction (4 sets)Bubble chamber tracks (6 sets)Color temperature (1 set)Compton scattering (1 set)Critical potentials of Helium (6 sets)Electron diffraction (6 sets)Electron gas in metals (4 sets)Geiger counters (1 set)Models of PN junctions (6 sets)Photoelectric effect (1 set)Plancks constant from LEDs (16 sets)
Pulse height analysis (1 set)Quantum defects in Helium (6 sets)Quantun defects in Sodium (6 sets)Radiation counting statistics (16 sets)*Radioactive decay of Indium-116 (16 sets)Radium decay (1 set)Rutherford scattering (1 set)Scintillation counters (1 set)
OpticsAngle of minimum deviation and dispersion (12 sets)Brewsters law (1 set)Concave mirrors (16 sets)Faraday effect (6 sets)Fizeau bands (6 sets)Fraunhofer diffraction (16 sets)Fresnel biprism (5 sets)Photometry (16 sets)Malus law (6 sets)Michelson interferometer (6 sets)Reflection and refraction (16 sets)Thin lenses and optical instruments (16 sets)
Thermal PhysicsBoyles law (16 sets)Constant volume gas thermometer (6 sets)Electrical equivalent of heat (24 sets)Law of Dulong and Petit (6 sets)Newtons law of cooling (24 sets)Thermoelectricity (6 sets)Thermometers, thermistors, and thermocouples (6 sets)*
Vibrations and WavesFourier synthesis (6 sets)Longitudinal waves on a spring (6 sets)Principle of equipartition (6 sets)Speed of sound (16 sets)Spring of air (8 sets)Standing waves on a wire (16 sets)Travelling waves (5 sets)
* Experiments that are mandatory for all physics majors and constitute a laboratory curriculum of topics that are not usually covered in lectures
Laboratory Support DocumentsFitting a straight line to experimental data
Formal laboratory report formatGraphing experimental dataHealth and safety in the physics laboratoryIntroduction to the laboratoryLaboratory experiment schedule (each semester)Laboratory instructors manualLaboratory notebook report formatLaboratory room assignments (each semester)Linearization of experimental dataList of physics experimentsProcedure for comparing two valuesSemiformal laboratory report formatWilliamson regression
Experiments that are useable but not entirely operationalClausius Clapeyron equation (6 sets)Free fall (16 sets)Fresnel diffraction (6 sets)Vapourization of LN2, sublimation of CO2 (6 sets)Method of mixtures, specific heat of lead (6 sets)Properties of a real gas (1 set)Rectification (6 sets)Stirling engine (1 set)
Experiments under developmentAC bridges (40%)Aerodynamic drag (70%)Capacitor charge and discharge (10%)Cavendish balance (10%)Electrostatic balance (30%)Friction (30%)Kelvin double bridge (20%)Lenz law (30%)Moseley's law (10%)Non-uniform acceleration (40%)Transformers (25%)Two slit interefence one photon at a time (30%)Vacuum systems (50%)
Lost Experiments (have been done in the past but we currently cannot do them)
AC bridgesBallistic pendulumConservation of angular momentumContinuous flow calorimeterDimensions of a molecule
Electrical breakdown of gases and Paschen's lawElectrochemical equivalentE/M of a protonElectrical filtersFocault method for determining the speed of lightFiber optic method for determining the speed of lightFrictionHall effect in metalsKelvin double bridgeMechanical equivalent of heatMicrowavesMillikans oil drop experimentProduction and measurement of high vacuumResistivity of metalsSemiconductoor coefficient of resistanceStokes lawSurface tensionThermal conductivity by Searles methodTransistorsTriode tube oscillatorUltrasonic interferometerVapor pressure
Potential Experiments in various stages of research and acquisitionAmperes lawAnnihilation radiation and positron emissionBeta spectroscopyBoundary conditions, standing waves on a wire with
two different diametersCenter of gravityCenter of mass of a stack of overhanging platesChaosChladni platesCircular polarizationClassical circuit theory: Thevenin, Norton,
Telegen, and Superposition theoremsCoefficient of thermal expansionColor measurementDebye theoryDoppler effectElectric field millElectrostaticsEvapourationFouriers law of thermal conductivityGrounding and shieldingGyroscope
Hertz contactHourglassImpedance and ReactanceImpulse, momentum, and collisionsInclined planeLens aberrationsLock-in amplifierMagnetic circuitsMagnetic torqueMean velocity of a moleculeMonodromyNatural radioactivity of potassiumNeutron activationNeutron detectionNeutron shieldingOptical stops and depth of fieldParametric resonancePhoton arrival statisticsPinhole diffraction and zone platesPlanar linkagesRadius of the earth by variation of g with heightRadon gas in the environmentRamp launched ballRod and roller problemSchlieren opticsSimple machines gears, cranes, linkages, screwsSkin effectSolitonsStress and StrainThermal anomaly of waterThermodynamics of air flow, nozzlesWater wavesWilberforce spring
2) Here is a list of available computer simulations. Although the number of physics simulations available on the internet is manifold, three candidates appear practical enough to be deployed here.
A) The MAP system (Modular Approach to physics) was designed and built locally by Hans Laue. This system is operational and can be deployed immediately. These simulations can be seen at: http://canu.ucalgary.ca/main.html The list of available pages and simulations followsThe MAP system
Terminology and Notation Time rate of change MAP notationMotion & Interaction Get A Glimpse (simulation)Vectors Basic Facts Get a glimpse Explain it Magnitude and direction (simulation) Vector specification (simulation) Test yourself Displacement vector (test) Velocity vector (test) Magnitude addition (test) Notation Simulate it Magnitude and direction (simulation) Vector specification (simulation) Get information Scalar Multiplication Explain it (simulation) Simulate it (simulation) Get information Test yourself Scalar multiplication (test) Scalar division (test) Addition Get a glimpse Explain it Tip to Tail (simulation) Parallelogram (exercise) Add three vectors (exercise) Addition quantitative (simulation) Simulate it Two addition methods (simulation) Add two vectors (simulation) Add three vectors (simulation) Get information Test yourself Basic addition 1 (test) Basic addition 2 (test) Collinear vectors (test) Three vectors (test) Resultant magnitudes (test) Resultant angle (test)
Subtraction Get a glimpse Explain it Add the negative (demo) Comparison (demo) Simulate it (simulation) Get information Test yourself Basic subtraction 1 (test) Basic subtraction 2 (test) Basic subtraction 3 (test) Scalar Components Explain it (demo) Simulate it (simulation) Get information Test yourself Resultant magnitudes (test) Resultant angle (test) Vector Component Explain it (simulation) Dot Product Explain it Geometric (simulation) Analytic (simulation) Simulate it Geometric (simulation) Analytic (simulation)Vector Product Simulate it (simulation)Functions Trigonometric Simulate it Sine function (simulation) Trig functions (simulation)Kinematics Position Get a glimpse Explain it (simulation) Get information Simulate it (simulation) Displacement Position change Explain it (simulation) Simulate it (simulation) Displacement versus distance Explain it (simulation)
Simulate it (simulation) Test yourself Displacement vector (test) Distance Travelled Explain it (simulation) Simulate it (simulation) Get information Time Simulate it Stopwatch (simulation) Timer stopwatch (simulation) Speed Average Simulate it Distance/time (simulation) Weighted average (simulation) Instantaneous Get information Velocity Basic facts Get a glimpse Get information Explain it (simulation) Simulate it (simulation) Average Get information Simulate it Displacement/time (simulation) Instantaneous Simulate it Free motion (simulation) Circular motion Simulate it (simulation) Acceleration Basic facts Get a glimpse (simulation) Planet activities Explain it (simulation) Get information Simulate it (simulation) Constant acceleration Get information Test yourself car chase 0 (test) car chase 1 (test) car chase 2 (test)
car chase 3 (test) car chase 4 (test) car chase 5 (test) car chase 6 (test) Due to gravity Get information Simulate it One ball (simulation) One ball no air (simulation) Two balls (simulation) Two balls questions Which one first (test) Intersection times (test) Monkey and hunter (simulation) Planet Motion Planet motion 1 (simulation) Planet motion 2 ( simulation) Test yourself Projectile motion launch speed/range (test) which one first (test) intersection times (test) Instantaneous Get information Simulate it (simulation) Radial (centripetal) Get information Explain it Direction (simulation) Magnitude (simulation) Simulate it (simulation) Test yourself Direction of velocity (test) Direction of acceleration (test) Magnitude of acceleration (test) Tangential Simulate it (simulation)Force Newtons 2nd Law Get information Explain it Fletcher (simulation) Simulate it Fletchers trolley (simulation) Accelerating incline (simulation) Block on springs (simulation)
Newtons 3rd Law Get information Simulate it Skaters and blocks (simulation) Colliding planets (simulation) Gravitational Simulate it Binary star system (simulation) Weight and orbits (simulation) Projectile motion (simulation) Normal Force Get a glimpse Explain it Quantitative (simulation) Simulate it Block on springs (simulation) Accelerating down an incline (simulation) Tension Explain it (simulation) Simulate it Fletcher (simulation) Test yourself Fletcher tension 1 (test) Fletcher tension 2 (test) Fletcher tension 3 (test) Fletcher acceleration (test) Electromagnetic Simulate it Particle in E-field (simulation) Particle in E-field (simulation) Particle in B-field (simulation) Thompson experiment (simulation)Field Gravitational Simulate it Uniform sphere (simulation) Weight and orbits (simulation) Electric Point charge field Simulate it (simulation) Dipole field Simulate it (simulation) Uniform sphere Simulate it (simulation) Magnetic Straight wire
Simulate it (simulation) Current loops Simulate it (simulation)Momentum Conservation Explain it Ball collision Derivation Simulate it Skaters and blocks (simulation) Collisions in 1d (simulation) Collisions in 2d (simulation)Energy Basic Facts Get a glimpse Explain it (simulation) Simulate it (simulation) Kinetic Energy Get information Work and CM-Work Get information Work Kinetic Energy Theorem Get information Explain it (simulation) Potential Energy Get information Explain it Uniform force (simulation) Simulate it Uniform gravitational field (simulation) Binary star system (simulation) Uniform electric field (simulation) Nonuniform eletric field (simulation) Energy Conservation Get a glimpse Explain it Fletchers trolley (simulation) Test yourself Fletchers speed (test) Fletchers acceleration (test) Apply it Simulate it Qualitative incline (simulation) Energy race (simulation) Fletchers trolley (simulation) Energy and orbits (simulation)
Fletcher activities Weighted spring (simulation) Qualitative pendulum (simulation) Quantitative pendulum (simulation)Angle Get Information Simulate It (simulation)Angular Velocity Get Information Simulate It (simulation) Moving car (simulation) Planet motion 1 (simulation) Planet motion 2 (simulation)Torque Basic Facts Explain it (simulation) Simulate it (simulation) Lever Arm Explain it Qualitative (simulation) Quantitative (simulation) Simulate it (simulation) About an axis Explain it Qualitative (simulation) Quantitative (simulation) Apply it Physical pendulum (simulation) Simulate it (simulation)Errors Basic Facts Explain it Abs/Rel Error Get a glimpse Explain it (simulation) Test yourself Question 1 (test) Question 2 (test) Question 3 (test) Question 4 (test) Sys/Ran Error Explain it (simulations) Propagation of error Explain it (simulations) Significant digits Explain it (simulations)
Electric Circuits Basic Facts Get a glimpse Explain it Simulate it Demo Practice (circuit simulation) Go to the lab Get information Current Explain it Simulate it (circuit simulation) Test yourself Connect a bulb (test) Bulb combination 1 (test) Bulb combination 2 (test) Resistor combination (test) Get information Potential Explain it Simulate it (circuit simulation) Get information Test yourself Potential divider 1 (test) Potential divider 2 (test) Resistance Explain it Get information Test yourself Resistor combination 2 (tesT) Power Explain it Test yourself Resistor power (test) Kirchoffs laws Explain it Get informationSimple Harmonic Motion Basic Facts Simulate it Weighted spring (simulation) Simple pendulum (simulation Energy conservation Simulate it Weighted spring (simulation) Pendulum (simulation
B) The Phet system (Physics Education Technology) from the University of Colorado. These simulations can be seen at:http://phet.colorado.edu/new/simulations/index.php?cat=All_Sims&view_type=thumbs This system is fancier but requires a more modern browser to support it. Deployment of the more modern browser in the required kiosk setting is about 8 months away. The list of available simulations follows. Starred ones are physics 211/221 related
A) Arithmetic* B) Balloons & Buoyancy Balloons and Static Electricity Band Structure Battery Voltage Battery-Resistor Circuit Blackbody Spectrum C) Charges and Fields Circuit Construction Kit (AC+DC) Circuit Construction Kit (DC Only) Color Vision Conductivity D) Davisson-Germer: Electron Diffraction Double Wells and Covalent Bonds E) Electric Field Hockey Electric Field of Dreams Energy Skate Park* Equation Grapher* Estimation* F) Faraday's Electromagnetic Lab Faraday's Law Forces in 1 Dimension* Fourier: Making Waves Friction* G) Gas Properties Geometric Optics
The Greenhouse Effect J) John Travoltage L) Ladybug Revolution* Lasers Lunar Lander* M) Masses & Springs Maze Game* Microwaves Models of the Hydrogen Atom Molecular Motors Motion in 2D* The Moving Man* My Solar System* N) Neon Lights and Other Discharge Lamps Nuclear Physics O) Ohm's Law Optical Quantum Control Optical Tweezers and Applications P) Photoelectric Effect Plinko Probability Projectile Motion* Q) Quantum Bound States Quantum Tunneling and Wave Packets Quantum Wave Interference R) Radio Waves & Electromagnetic Fields The Ramp* Reactions & Rates Resistance in a Wire Reversible Reactions Rutherford Scattering S) Salts & Solubility Self-Driven Particle Model Semiconductors Signal Circuit Simplified MRI Sound Stern-Gerlach Experiment
Stretching DNA V) Vector Addition* W) Wave Interference Wave on a String
C) Physlets are a java application framework for writing web based physics demonstrations and tutorials. An overview is located at: http://webphysics.davidson.edu/physlet_resources/ Several textbooks have been written using physlets and a wide variety of physlets are freely available for noncommercial use from other contributors. Notably, Alfredo Louro has created physlets that are located at: http://www.phas.ucalgary.ca/physlets/index.htm a list follows: Mechanics Uniformly accelerated motion in 1D Free fall Projectile motion Simple harmonic motion An interaction illustrating Newton's laws. Doppler detection of extrasolar planets Ptolemy's theory of planetary motion Retrograde motion of the planets Illustration of Kepler's 1st. and 2nd. laws Kepler's 3rd. law Circular motion One-dimensional collision in the lab frame One-dimensional collision in the centre-of-mass frame Electricity & Magnetism Electric fields: A review Systems of charges Electric field lines Oersted's experiment Magnetic field due to a current loop Faraday's law Optics Virtual optical bench Waves Ripple tank - 2 source interference and Randall Stafford has a collection of physlets as well His list follows: capacitor_complex charges_opposing
equip_charges2 resistors_parallel capacitors_parallel kirchhoffs_rule resistors_series capacitors_series efield_charges1 line_charge simple_pendulum charges_equal efield_charges2 charges_generator equip_charges1 resistors_complex
The physlet system also requires a more modern browser to support it. so deployment in the required kiosk setting is about 8 months away.
D) Maple, Matlab, IDL, and Mathematica are all available to have students write and execute their own simulations but such usage is restricted to physics majors only due to volume constraints.
3) Available demonstrations
Two sorts of demonstrations are available. We of course have physical apparatus available that can be used to manually perform demonstrations. We also have an extensive collection of virtual demonstrations consisting of movies of physics demonstrations, that can be placed online for use by instructors and students.
A) Physical demonstrations
PIRA # "Title" --------------------- 1A10.10 "Basic Units" 1A10.30 "Standards of Length" 1A10.35 "Meter Stick" 1A20.41 "Vernier Calipers" 1A50.10 "Radian Disk" 1C10.05 "Ultrasonic Detector and Students" 1C10.22 "Air Track and Glider" 1C10.26 "Velocity Air Track Glider" 1C20.10 "Feather and Cork" 1C20.16 "Drop ball and paper" 1C20.17 "Drop Light and Heavy Ball" 1C20.30 "Inclined Air Track"
1C30.10 "Free Fall Timer" 1C30.55 "Catch a Meter Stick" 1D15.55 "Brachistochrone" 1D50.10 "Ball on a String" 1D50.20 "Whirligig" 1D50.50 "Welch Centripetal Force" 1D52.20 "Spinning Water Parabola" 1D60.20 "Monkey and the Hunter" 1D60.65 "Water Stream Trajectory" 1F30.10 "Persistence of Motion" 1G10.10 "Acceleration Air Glider" 1G10.40 "Atwood's Machine" 1G20.45 "Dropped Slinky" 1J10.12 "Center of Gravity Shapes" 1J11.50 "Rolling Uphill" 1J30.20 "Tension in a String" 1J40.20 "Torque Balance" 1K10.30 "Walking Spool" 1K20.30 "Static versus Sliding Friction" 1M20.10 "Pulleys" 1M40.10 "Bowling Ball Pendulum (nose basher)" 1M40.20 "Loop-the-loop" 1M40.40 "Ballistic Pendulum" 1M40.90 "Rattleback" 1N22.20 "Water Rockets" 1N30.10 "Newton's Collision Balls" 1N30.60 "Astroblaster" 1N40.10 "Ramp Launched Ball" 1N40.10 "Ramp Launched Ball With Collision" 1Q10.20 "Torsion Pendulum" 1Q10.41 "Rolling Objects" 1Q20.15 "Rolling Drum" 1Q40.13 "Rotating Stool with Weights" 1Q50.20 "Bicycle Wheel Gyro" 1Q50.50 "Precession Gyroscope" 1Q50.59 "Bicycle Wheel and Turn Table" 1Q60.30 "Tipee Tops" 1Q60.40 "Tossing a Book" 1R40.30 "Happy and Sad Balls" "Gyroscopes" "Mass Spectrometer" "Spring Loaded Carts" "Trebuchet" "Euler Disk" "Sawhorse" "Variable G Pendulum
"Skateboard" "Conservation of Energy Tracks"
B) Physics demonstration movies physics-demonstration-movies/Units and Vectors: 1. Basic Units.mp2 2. Vector Addition.mp2 3. Vector Addition2.mp2 4. Vector Components.mp2 5. Vector Dot Product.mp2 6. Vector Cross Product.mp2 7. 3-D Vector Cross Product.mp2
physics-demonstration-movies/Linear Kinematics: 8. Constant Velocity.mp2 9. Bulldozer on Moving Sheet.mp2 10. Rolling Ball Incline.mp2 11. Constant Acceleration.mp2 12. Sting and Weights Drop.mp2 13. Reaction Time Falling Meter Stick.mp2 14. Guinea and Feather.mp2
physics-demonstration-movies/Linear Dynamics: 15. Sting and Weight Acceleration.mp2 16. Atwood's Machine.mp2 17. Acceleration with Spring.mp2 18. Dropped Slinky.mp2 19. Candle in Dropped Jar.mp2
physics-demonstration-movies/Motion In A Plane: 1. ShooterDropper.mp2 2. Monkey Gun.mp2 3. Vertical Gun on Car.mp2 4. Vertical Gun on Accelerated Car.mp2 5. Air Table Parabolas.mp2 6. Range Gun.mp2 7. Velocity Vector Addition.mp2 8. Bulldozer Moving on Sheet (2D).mp2 9. Sliding Weights With Triangle.mp2 10. Sailing Upwind.mp2 11. Local Vertical With Acceleration.mp2
physics-demonstration-movies/Inertia: 12. Shifted Air Track Inertia.mp2 13. Inertia Ball.mp2 14. Foam Rock.mp2
15. Tablecloth Jerk.mp2 16. Egg and Pizza Pan.mp2 17. Pencil and Plywood.mp2
physics-demonstration-movies/Action and Reaction: 18. Reaction Gliders.mp2 19. Reaction Gliders Momentum Conservation.mp2 20. Car on Rolling Board.mp2 21. Fan Car With Sail.mp2 22. C02 Rocket.mp2 23. Water Rocket.mp2 24. Fire Extinguisher Wagon.mp2 26. Helicopter Rotor.mp2 27. See-Saw Reaction Carts.mp2
physics-demonstration-movies/Friction: 1. Air Track Friction.mp2 2. Static vs Sliding Friction.mp2 3. Area Dependence of Friction.mp2 4. Weight Dependence of Friction.mp2 5. Surface Dependence of Friction.mp2 6. Stability of Rolling Car.mp2
physics-demonstration-movies/Work, Energy, and Power: 7. Pile Driver.mp2 8. Spring Pong Gun.mp2 9. Spring Jumper.mp2 10. X Squared Spring Energy Dependence.mp2 11. High Bounce Paradox.mp2 12. Energy Well Track.mp2 13. Galileo's Pendulum.mp2 14. Bowling Ball Pendulum.mp2 15. Triple Track.mp2 16. Hand Cranked Generator.mp2 17. Generator Driven By Falling Weight.mp2
physics-demonstration-movies/Center of Mass: 18. Prony Brake.mp2 19. Stability.mp2 20. Irregular Objects Center of Mass.mp2 21. Center of Mass Disc.mp2 22. Chair on Pedestal.mp2 23. Clown on Rope.mp2 24. Double Cone on Incline.mp2 25. Loaded Disc.mp2 26. Toppling Cylinders.mp2
27. Air Table Center of Mass.mp2
physics-demonstration-movies/Statics: 1. Force Board.mp2 2. Clothesline.mp2 3. Load on Removable Incline.mp2 4. Pulley Advantage.mp2 5. Pulley and Scales.mp2 6. Simple Machines.mp2 7. Levers.mp2 8. Horizontal Boom.mp2 9. Arm Model.mp2 10. Torque Bar.mp2 11. Hinge Board.mp2 12. Torque Wrench.mp2 13. Torque Wheel.mp2 14. Balancing Meter Stick.mp2 15. Meter Stick on Fingers.mp2 16. Bridge and Truck.mp2 17. Roberval Balance.mp2 18. Ladder Forces.mp2 19. Broom Stand.mp2 20. Bed of Nails.mp2 21. Egg Crusher.mp2
physics-demonstration-movies/Collisions: 1. Colliding Balls.mp2 2. Equal and Unequal Mass Collisions.mp2 3. Elastic and Inelastic Collisions.mp2 4. Coefficient of Restitution.mp2 5. High Bounce.mp2 6. Air Table Collisions.mp2 7. Air Table Collisions (Unequal Mass).mp2 8. Air Table Collisions (Inelastic).mp2 9. Egg in Sheet.mp2 10. Pile Driver with Foam Rubber.mp2 11. Ballistic Pendulum.mp2
physics-demonstration-movies/Rotational Kinematics: 12. Radian Disc.mp2 13. Cycloid Generator.mp2 14. Circle with Gap.mp2 15. Rotating Disc with Erasers.mp2 16. Spinning disc with Water.mp2 17. Ball on Cord.mp2 18. Coin on a Coat Hanger.mp2
19. Plane on a String.mp2 20. Roundup.mp2 21. Whirling Bucket of Water.mp2 22. Centrifuge Hoop.mp2 23. Water and Mercury Centrifuge.mp2 24. Spinning Chain.mp2 25. Rotating Rubber Wheel.mp2 26. Centrifugal Governor.mp2
physics-demonstration-movies/Rotational Acceleration and Energy: 1. Angular Acceleration Machine.mp2 2. Bike Wheel Angular Acceleration.mp2 3. Air Rotator with Deflectors.mp2 4. Rolling Bodies on Incline.mp2 5. Spool on Incline.mp2 6. Bike Wheel on Incline.mp2 7. Spool with Wrapped Ribbon.mp2 8. Maxwell's Yoyo.mp2 9. Loop the Loop.mp2 10. Penny Drop Stick.mp2 11. Hinged Stick and Ball.mp2 12. Center of Percussion.mp2 13. Foucault Pendulum.mp2 14. Coriolis Effect.mp2
physics-demonstration-movies/Conservation of Angular Momentum: 1. Marbles and Funnel.mp2 2. Train on Circular Track.mp2 3. Tail Wags Dog.mp2 4. Rotating Stool and Weights.mp2 5. Rotating Stool and Long Bar.mp2 6. Rotating Stool and Bicycle Wheel.mp2 7. Gyroscopic Stability.mp2 8. Wheel and Brake.mp2 9. Satellite Derotator.mp2
physics-demonstration-movies/Precession: 10. Bike Wheel Precession.mp2 11. Gyroscope with Adjustable Weights.mp2 12. Bike Wheel on Gimbals.mp2 13. Double Bike Wheel.mp2 14. Motorized Gyroscope.mp2
physics-demonstration-movies/Rotational Phenomena: 15. Static and Dynamic Balance.mp2 16. Football Spin.mp2
17. Tippy Top.mp2 18. Ship Stabalizer.mp2 19. Spinning Rod and Hoop on Wire.mp2 20. Stable and Unstable Axes of Rotation.mp2
physics-demonstration-movies/Gravitation: 21. Sections of a Cone.mp2 22. Ellispse Drawing Board.mp2 23. Cavendish Balance.mp2
physics-demonstration-movies/Elasticity: 1. Hooke's Law.mp2 2. Spring in Series and Parallel.mp2 3. Torsion Rod.mp2 4. Elastic Limits.mp2 5. Young's Modulus.mp2 6. Bending Beams.mp2 7. 2 1 Scaling.mp2 8. Bologna Bottle.mp2 9. Elasticity at Low Temperatures.mp2
physics-demonstration-movies/Oscillations: 10. Tunig Fork with Light.mp2 11. Mass on Spring.mp2 12. Air Track Simple Harmonic Motion.mp2 13. Torsion Pendulum.mp2 14. Different Mass Pendula.mp2 15. 4 1 Pendula.mp2 16. Hoops and Arcs.mp2 17. Pendulum with Large Amplitude.mp2 18. Physical Pendulum.mp2 19. Variable Angle Pendulum.mp2 20. Circular Motion vs Spring and Weight.mp2 21. Circular Motion vs Pendulum.mp2 22. Phase Shift.mp2 23. Periodic Non-Simple Harmonic Motion.mp2 24. Inertia Balance.mp2 25. Pendulum Waves.mp2 26. Lissajous Figures.mp2
physics-demonstration-movies/Resonance: 1. Bowling Ball Pendulum Resonance.mp2 2. Resonant Driven Pendula.mp2 3. Driven Spring and Weight.mp2 4. Pump Pendulum.mp2 5. Reed Tachometer.mp2
6. Glass Breaking with Sound.mp2 7. Coupled Pendula.mp2 8. Wilberforce Pendulum.mp2
physics-demonstration-movies/Mechanical Waves: 9. Wave on Rope.mp2 10. Pulse on Moving Chain.mp2 11. Tension Dependence of Wave Speed.mp2 12. Torsional Waves.mp2 13. Wave Speed.mp2 14. Longitudinal Wave Model.mp2 15. Longitudinal Slinky Waves.mp2 16. Wave Superposition.mp2 17. Reflection of Waves.mp2 18. Spring Wave Reflection.mp2 19. Wave Coupling.mp2 20. Refraction of Water Waves.mp2 21. Single Slit Diffraction of Water Waves.mp2 22. Double Slit Interference of Water Waves.mp2 23. Moire Pattern.mp2 24. Tacoma Narrows.mp2
physics-demonstration-movies/Standing Waves: 24. Longitudinal Standing Waves.mp2 25. Slinky Standing Wave.mp2 26. Standing Waves.mp2 27. Three Tension Standing Waves.mp2 28. Rubber Tube Standing Wave.mp2 29. Drumhead.mp2 30. Chladni Plates.mp2
Lastly, to answer your question, here are existing experimentsthat I think could be reworked into 2 hour labatorials thatmight fit into the physics 211/221 curriculum. All would needa new writeup.
Centripetal force (16 sets) - can be shortened to 2 hours - can raise apparatus count to 24 with moderate difficulty - cannot be converted to a digital lab Coefficient of restitution (24 sets) - can be shortened to 2 hours - already have 24 sets - can be converted to a digital lab Collisions and conserved quantities (24 sets) - can be shortened to 2 hours
- already have 24 sets - can be converted to a digital lab Conservation of energy (24 sets) - no issue with shortening - already have 24 sets - can be converted to a digital lab Free fall (16 sets) - can be shortened to 2 hours - can raise apparatus count to 24 with moderate difficulty - can be converted to a digital lab Hookes law (16 sets) - can be shortened to 2 hours - easy to raise apparatus count to 24 - can be converted to a digital lab Impact craters (24 sets) - can be shortened to 2 hours with difficulty - already have 24 sets - cannot be converted to a digital lab Inclined Atwoods machine (24 sets) - can be shortened to 2 hours - already have 24 sets - can be converted to a digital lab Kater's pendulum (16 sets) - can be shortened to 2 hours with difficulty - can raise apparatus count to 24 with moderate difficulty - can be converted to a digital lab Measureements and uncertainties - can be shortened to 2 hours - already have 24 sets - can be converted to a digital lab Moment of inertia (24 sets) - can be shortened to 2 hours - already have 24 sets - cannot be converted to a digital lab Newtons second law (24 sets) - can be shortened to 2 hours - already have 24 sets - can be converted to a digital lab Projectile motion (18 sets) - can be shortened to 2 hours - can raise apparatus count to 24 with moderate difficulty - cannot be converted to a digital lab except with video software Pulley systems (6 sets) - can be shortened to 2 hours - can raise apparatus count to 24 with moderate difficulty - can be converted to a digital lab
Simple harmonic motion and the pendulum (18 sets) - can be shortened to 2 hours - can raise apparatus count to 24 with moderate difficulty - can be converted to a digital lab with new simpler apparatus Static equilibrium and the addition of forces (16 sets) - can be shortened to 2 hours - can raise apparatus count to 24 with moderate difficulty - can be converted to a digital lab Torque and the beam balance (16 sets) - can be shortened to 2 hours - easy to raise apparatus count to 24 - cannot be converted to a digital lab Sawhorse - can be shortened to 2 hours - can raise apparatus count to 24 with moderate difficulty - can be converted to a digital lab Cavendish balance - currently untested - can only be done as a video exercise - video labs not ready yet Nonuniform acceleration on the air track - can be shortened to 2 hours - already have 24 sets - can be converted to a digital lab Ramp launched ball - currently untested - new apparatus requires construction - cannot be converted to a digital lab
In the interest of completeness, other sources of experiments and tutorialsare also available. The addition of computer sensors to our apparatus permitsthe design and construction of completely new experiments. This list is stillshort since the new apparatus has not been assimilated at this time.
Some ideas presented and/or used by Dr. Hicks and associates last semester. Acoustic motion sensor experiments - exercises while walking towards one - free fall Force plate experiments - pushing against a wall - pushing against each other - pushing on a wheeled object - standing on it - stacking force sensors on top of each other
- walking on a beam - walking on a table supported by 3 or 4 plates 1 axis accelerometer experiments - holding the accelerometer and moving it around - turning it upside down - playing catch with it - jumping 3 axis wireless accelerometer experiments - playing catch with one - swinging on the end of a pendulum - elevator trip - jumping - turning it around - circular motion, strapping it to the rim of a bicycle wheel - holding one on a skatebord or rolling chair - tumbling about each axis
Some ideas contributed by Jason Donev that could be also be used in physics 211/221 from previous similar courses he has worked on - Math review easy to support, interesting questions - Investigating motion similar to acoustic motion sensor experiment mentioned above but more complete - Rolling bodies requires construction of ramps - Free Fall similar to free fall lab mentioned above - Using a pendulum to find g easy to support and digitze - Projectile motion this is the ramp launched ball experiment mentioned above - Projectile motion in 2-d we will need air tables in order to perform this experiment but it handles projectile motion without resort to video cameras or other indirect methods of inferring the trajectory - Force table we will need force tables to perform this experiment but force tables would be a nice addition to our repertoire. Force tables can also be used to experiment with static equilibrium of planar bodies involving torques and forces in physics 341 - Static equilibrium Requires a spreadsheet infrastructure which we dont have available for first year students yet - Newtons second law similar to newtons second law lab mentioned above
- Conservation of energy similar to conservation of energy lab mentioned above - Simple harmonic motion similar to Hookes law lab mentioned above - Rotational motion pure tutorial on rotation, no apparatus needed - Conical pendulum experimental version of the whirligig demonstration listed above. I am worried about rooms filled with students swinging something over their heads. - Moment of inertia requires construction of ramps - M&M interesting edible statistical experiment. Large amount of M&M's required for a first year course. - Collisions in 2 dimensions required air tables, but would be a nice addition to our repertoire. - Air drag on a falling object. we have a balloon experiment like this that was used in physics 225 and could be used in physics 341. This version can be digitized, the balloon version likely cannot be digitized. - Air drag simulation would be good to have a simulation of air drag. This version uses a spreadsheet for which we are not set up yet for first year students.
I think that pretty much summarizes the relevant information I have at hand. Hopefully, this gives you a better picture of the current Junior laboratorysituation and answers your questions.
Hugo Graumann March 12, 2008