https://demosdev.physique.uottawa.ca/w/api.php?action=feedcontributions&feedformat=atom&user=Ljacques
PhyLab - Contributions de l’utilisateur [fr]
2026-05-14T00:31:47Z
Contributions de l’utilisateur
MediaWiki 1.34.1
https://demosdev.physique.uottawa.ca/w/index.php?title=Air_track&diff=1144
Air track
2020-05-11T17:58:54Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
<br />
Back to [[1C_-_Motion_in_one_dimension|1C - Motion in one dimension]]<br><br />
PIRA index: 1C10.25<br />
<br />
==Description==<br />
An air track demonstrates frictionless 1-D travel as well as 1-D frictionless collisions.<br />
<br />
==Equipment==<br />
*2 metre long air track<br />
*Air pump<br />
*Flexible hose<br />
*Power cable<br />
*Extension cord<br />
*Gliders (with magnets/pins)<br />
*Motion detectors and computer/software<br />
<br />
==Instructions==<br />
Place air track on a flat, level surface.<br />
Adjust feet screws to level the track.<br />
Connect hose from pump to track and turn on pump.<br />
Adjust pump speed as necessary.<br />
Demonstrate frictionless travel and/or collisions using gliders.<br />
<br />
==Keywords==<br />
air, track, frictionless, motion<br />
<br />
==Images & Movies==<br />
[[:en:Image:1C10.25_1.JPG|Figure1]]<br />
<gallery><br />
Image:1C10.25_1.JPG|Figure1<br />
</gallery><br />
{{#widget:YouTube|width=600|height=337|id=ZNvBXwd3QXY}}</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Air_track&diff=1143
Air track
2020-05-11T17:47:44Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
<br />
Back to [[1C_-_Motion_in_one_dimension|1C - Motion in one dimension]]<br><br />
PIRA index: 1C10.25<br />
<br />
==Description==<br />
An air track demonstrates frictionless 1-D travel as well as 1-D frictionless collisions.<br />
<br />
==Equipment==<br />
*2 metre long air track<br />
*Air pump<br />
*Flexible hose<br />
*Power cable<br />
*Extension cord<br />
*Gliders (with magnets/pins)<br />
*Motion detectors and computer/software<br />
<br />
==Instructions==<br />
Place air track on a flat, level surface.<br />
Adjust feet screws to level the track.<br />
Connect hose from pump to track and turn on pump.<br />
Adjust pump speed as necessary.<br />
Demonstrate frictionless travel and/or collisions using gliders.<br />
<br />
==Keywords==<br />
air, track, frictionless, motion<br />
<br />
==Images & Movies==<br />
[[Image:1C10.25_1.JPG|Figure1]]<br />
<gallery><br />
Image:1C10.25_1.JPG|Figure1<br />
</gallery><br />
{{#widget:YouTube|width=600|height=337|id=ZNvBXwd3QXY}}</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Air_track&diff=1142
Air track
2020-05-11T17:47:13Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
<br />
Back to [[1C_-_Motion_in_one_dimension|1C - Motion in one dimension]]<br><br />
PIRA index: 1C10.25<br />
<br />
==Description==<br />
An air track demonstrates frictionless 1-D travel as well as 1-D frictionless collisions.<br />
<br />
==Equipment==<br />
*2 metre long air track<br />
*Air pump<br />
*Flexible hose<br />
*Power cable<br />
*Extension cord<br />
*Gliders (with magnets/pins)<br />
*Motion detectors and computer/software<br />
<br />
==Instructions==<br />
Place air track on a flat, level surface.<br />
Adjust feet screws to level the track.<br />
Connect hose from pump to track and turn on pump.<br />
Adjust pump speed as necessary.<br />
Demonstrate frictionless travel and/or collisions using gliders.<br />
<br />
==Keywords==<br />
air, track, frictionless, motion<br />
<br />
==Images & Movies==<br />
[[:en:File:1C10.25_1.JPG|Figure1]]<br />
<gallery><br />
:en:File:1C10.25_1.JPG|Figure1<br />
</gallery><br />
{{#widget:YouTube|width=600|height=337|id=ZNvBXwd3QXY}}</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Air_track&diff=1141
Air track
2020-05-11T17:44:47Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
<br />
Back to [[1C_-_Motion_in_one_dimension|1C - Motion in one dimension]]<br><br />
PIRA index: 1C10.25<br />
<br />
==Description==<br />
An air track demonstrates frictionless 1-D travel as well as 1-D frictionless collisions.<br />
<br />
==Equipment==<br />
*2 metre long air track<br />
*Air pump<br />
*Flexible hose<br />
*Power cable<br />
*Extension cord<br />
*Gliders (with magnets/pins)<br />
*Motion detectors and computer/software<br />
<br />
==Instructions==<br />
Place air track on a flat, level surface.<br />
Adjust feet screws to level the track.<br />
Connect hose from pump to track and turn on pump.<br />
Adjust pump speed as necessary.<br />
Demonstrate frictionless travel and/or collisions using gliders.<br />
<br />
==Keywords==<br />
air, track, frictionless, motion<br />
<br />
==Images & Movies==<br />
[[:en:Image:1C10.25_1.JPG|Figure1]]<br />
<gallery><br />
:en:File:1C10.25_1.JPG|Figure1<br />
</gallery><br />
{{#widget:YouTube|width=600|height=337|id=ZNvBXwd3QXY}}</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Air_track&diff=1140
Air track
2020-05-11T17:44:26Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
<br />
Back to [[1C_-_Motion_in_one_dimension|1C - Motion in one dimension]]<br><br />
PIRA index: 1C10.25<br />
<br />
==Description==<br />
An air track demonstrates frictionless 1-D travel as well as 1-D frictionless collisions.<br />
<br />
==Equipment==<br />
*2 metre long air track<br />
*Air pump<br />
*Flexible hose<br />
*Power cable<br />
*Extension cord<br />
*Gliders (with magnets/pins)<br />
*Motion detectors and computer/software<br />
<br />
==Instructions==<br />
Place air track on a flat, level surface.<br />
Adjust feet screws to level the track.<br />
Connect hose from pump to track and turn on pump.<br />
Adjust pump speed as necessary.<br />
Demonstrate frictionless travel and/or collisions using gliders.<br />
<br />
==Keywords==<br />
air, track, frictionless, motion<br />
<br />
==Images & Movies==<br />
[[en:Image:1C10.25_1.JPG|Figure1]]<br />
<gallery><br />
:en:File:1C10.25_1.JPG|Figure1<br />
</gallery><br />
{{#widget:YouTube|width=600|height=337|id=ZNvBXwd3QXY}}</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Air_track&diff=1139
Air track
2020-05-11T15:53:55Z
<p>Ljacques : /* Images & Movies */</p>
<hr />
<div>__NOTOC__<br />
<br />
Back to [[1C_-_Motion_in_one_dimension|1C - Motion in one dimension]]<br><br />
PIRA index: 1C10.25<br />
<br />
==Description==<br />
An air track demonstrates frictionless 1-D travel as well as 1-D frictionless collisions.<br />
<br />
==Equipment==<br />
*2 metre long air track<br />
*Air pump<br />
*Flexible hose<br />
*Power cable<br />
*Extension cord<br />
*Gliders (with magnets/pins)<br />
*Motion detectors and computer/software<br />
<br />
==Instructions==<br />
Place air track on a flat, level surface.<br />
Adjust feet screws to level the track.<br />
Connect hose from pump to track and turn on pump.<br />
Adjust pump speed as necessary.<br />
Demonstrate frictionless travel and/or collisions using gliders.<br />
<br />
==Keywords==<br />
air, track, frictionless, motion<br />
<br />
==Images & Movies==<br />
<gallery><br />
en:File:1C10.25_1.JPG|Figure1<br />
</gallery><br />
{{#widget:YouTube|width=600|height=337|id=ZNvBXwd3QXY}}</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Mechanics&diff=1138
Mechanics
2020-05-11T15:49:56Z
<p>Ljacques : </p>
<hr />
<div>[[en:Mechanics]]<br />
__NOTOC__<br />
==1A - Measurements==<br />
<!--===10. Basic units===<br />
*1A10.20 [[Weights]]<br />
*1A10.30 [[Standard meter stick]]<br />
*1A10.40 [[Timer]]--><br />
<!--===20. Error and accuracy===<br />
*1A20.25 [[Dice]]<br />
*1A20.41 [[Large Vernier Caliper]]<br />
*1A20.60 [[Reaction time with meter stick]]--><br />
<!--===30. Coordinate Systems===<br />
*1A30.22 [[Euler's Angle]]--><br />
<!--*1A30.40 [[Globe]]--><br />
<!--===40. Vectors===<br />
*1A40.20 [[Large vector arrows]]--><br />
<!--===50. Math Topics===--><br />
<!--===60. Scaling===--><br />
<br />
==1C - Motion in one dimension==<br />
===10. Velocity===<br />
*1C10.25 [[Air track]]<br />
===20. Uniform Acceleration===<br />
*1C20.10 [[Ball and feather in air/vacuum]]<br />
*1C20.11 [[Flat metal and paper sheet]]<br />
===30. Measuring ''g''===<br />
*1C30.35 [[Picket fence and photogate]]<br />
<br />
==1D - Motion in two dimensions==<br />
<!--===10. Displacement in Two Dimensions===--><br />
<!--===15. Velocity, Position and Acceleration===--><br />
===40. Motion of the Center of Mass===<br />
*1D40.00 [[Tennis racket rotation]]<br />
*1D40.00 [[Light tube rotation]]<br />
===50. Central Forces===<br />
*1D50.20 [[Whirligig]]<br />
*1D50.20 [[Lighter mass lifting heavier mass]]<br />
*1D50.40 [[Bucket with water]]<br />
===52. Deformation by Central Forces===<br />
*1D52.10 [[Flattening earth]]<br />
===55. Centrifugal Escape===<br />
*1D55.10 [[Broken ring]]<br />
*1D55.23 [[Salad spinner]]<br />
===60. Projectile Motion===<br />
*1D60.10 [[Cart with vertical ball launcher]]<br />
*1D60.20 [[Falling and shooting ball]]<br />
*1D60.30 [[Monkey and hunter]]<br />
*1D60.55 [[Parabolic trajectory on incline]]<br />
<br />
==1E - Relative Motion==<br />
<!--===10. Moving Reference Frames===--><br />
<!--===20. Rotating Reference Frames===--><br />
===30. Coriolis Effect===<br />
*1E30.28 [[Coriolis effect (painted ball on rotating platform)]]<br />
<br />
==1F - Newton's First Law==<br />
<!--===10. Measuring Inertia===--><br />
===20. Inertia of Rest===<br />
*1F20.30 [[Tablecloth and dishes]]<br />
*1F20.34 [[Cylindrical stack of discs]]<br />
===30. Inertia of Motion===<br />
*1F30.00 [[Rolling basketball]]<br />
<br />
==1G - Newton's Second Law==<br />
<!--===10. Force, Mass and Acceleration===--><br />
===20. Accelerated Reference Frames===<br />
*1G20.40 [[Cup and weights]] <br />
===30. Complex Systems===<br />
<br />
==1H - Newton's Third Law==<br />
===10. Action and Reaction===<br />
*1H10.20 [[Fan-car]]<br />
*1H10.90 [[Glider with magnets]]<br />
===11. Recoil===<br />
*1H11.30 [[Rocket on air track]]<br />
<br />
==1J - Statics and Rigid bodies==<br />
===10. Finding Center of Gravity===<br />
*1J10.09 [[Cardboard box]]<br />
*1J10.10 [[Non-uniform flat object]]<br />
<!--===11. Exceeding Center of Gravity===--><br />
===20. Stable, Unstable, and Neutral Equilibrium===<br />
*1J20.20 [[Center of mass of irregular objects]]<br />
*1J20.30 [[Balanced hammer and arc]]<br />
*1J20.45 [[Tightrope walker]]<br />
*1J20.70 [[Climbing double cone]]<br />
<!--===30. Resolution of Forces===--><br />
<!--===40. Static Torque===--><br />
<br />
==1K - Applications of Newton's Law==<br />
===10. Dynamic Torque===<br />
*1K10.30 [[Walking the spool]]<br />
===20. Friction===<br />
*1K20.30 [[Block pull]](static and dynamic friction)<br />
*1K20.71 [[Heavy bucket and rope friction]]<br />
<!--===30. Pressure===--><br />
<br />
<!--==1L - Gravity==--><br />
==1M - Work and Energy==<br />
<!--===10. Work===--><br />
===20. Simple Machines===<br />
*1M20.10 [[Pulleys]]<br />
*1M20.40 [[Lever level]]<br />
<!--===30. Non-Conservative forces===--><br />
===40. Conservation of Energy===<br />
*1M40.10 [[Bowling ball pendulum]]<br />
*1M40.20 [[Roller coaster]]<br />
*1M40.50 [[Large yo-yo]]<br />
<!--===50. Mechanical Power===--><br />
<br />
==1N - Linear Momentum and Collisions==<br />
<!--===10. Impulse and Thrust===--><br />
<!--===20. Conservation of Linear Momentum===--><br />
<!--===21. Mass and Momentum Transfer===--><br />
===22. Rockets===<br />
*1N22.10 [[Rocket bike]]<br />
*1N22.25 [[Balloons]]<br />
===30. Collisions on One Dimension===<br />
*1N30.10 [[Force propagation through collision]]<br />
*1N30.60 [[Basketball with tennis ball]]<br />
<!--===40. Collisions in Two Dimensions===--><br />
<br />
==1Q - Rotational Dynamics==<br />
===10. Moment of Inertia===<br />
*1Q10.30 [[Inclined plane]]<br />
*1Q10.40 [[Cylinder race down a ramp]]<br />
===20. Rotational Energy===<br />
*1Q20.25 [[Rotational dynamics pulleys]]<br />
*1Q20.40 [[Flywheel car]]<br />
*1Q20.50 [[Hinged stick and ball]]<br />
===30. Transfer of Angular Momentum===<br />
*1Q30.10 [[Rotating platform]]<br />
===40. Conservation of Angular Momentum===<br />
*1Q40.30 [[Bicycle wheel as spinning top]]<br />
===50. Gyros===<br />
*1Q50.21 [[Bicycle wheel as gyroscope]]<br />
*1Q50.30 [[Spinning gyroscopes and tops]]<br />
*1Q50.40 [[Briefcase with flywheel inside]]<br />
*1Q50.50 [[Spinning lariat, rod, and disc]]<br />
<!--===60. Rotational Stability===--><br />
<!--*1Q60.40 [[Stable and unstable axes of rotation]]--><br />
<br />
==1R - Properties of Matter==<br />
===10. Hooke's Law===<br />
*10R10.10 [[Hooke's Law]]<br />
<!--===20. Tensile and Compressible Stress===--><br />
<!--===30. Shear Stress===--><br />
<!--===40. Coefficient of Restitution===--><br />
<!--===50. Crystal Structure===--></div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Mechanics&diff=1137
Mechanics
2020-05-11T15:49:43Z
<p>Ljacques : </p>
<hr />
<div>[[fr:Mechanics]]<br />
__NOTOC__<br />
==1A - Measurements==<br />
<!--===10. Basic units===<br />
*1A10.20 [[Weights]]<br />
*1A10.30 [[Standard meter stick]]<br />
*1A10.40 [[Timer]]--><br />
<!--===20. Error and accuracy===<br />
*1A20.25 [[Dice]]<br />
*1A20.41 [[Large Vernier Caliper]]<br />
*1A20.60 [[Reaction time with meter stick]]--><br />
<!--===30. Coordinate Systems===<br />
*1A30.22 [[Euler's Angle]]--><br />
<!--*1A30.40 [[Globe]]--><br />
<!--===40. Vectors===<br />
*1A40.20 [[Large vector arrows]]--><br />
<!--===50. Math Topics===--><br />
<!--===60. Scaling===--><br />
<br />
==1C - Motion in one dimension==<br />
===10. Velocity===<br />
*1C10.25 [[Air track]]<br />
===20. Uniform Acceleration===<br />
*1C20.10 [[Ball and feather in air/vacuum]]<br />
*1C20.11 [[Flat metal and paper sheet]]<br />
===30. Measuring ''g''===<br />
*1C30.35 [[Picket fence and photogate]]<br />
<br />
==1D - Motion in two dimensions==<br />
<!--===10. Displacement in Two Dimensions===--><br />
<!--===15. Velocity, Position and Acceleration===--><br />
===40. Motion of the Center of Mass===<br />
*1D40.00 [[Tennis racket rotation]]<br />
*1D40.00 [[Light tube rotation]]<br />
===50. Central Forces===<br />
*1D50.20 [[Whirligig]]<br />
*1D50.20 [[Lighter mass lifting heavier mass]]<br />
*1D50.40 [[Bucket with water]]<br />
===52. Deformation by Central Forces===<br />
*1D52.10 [[Flattening earth]]<br />
===55. Centrifugal Escape===<br />
*1D55.10 [[Broken ring]]<br />
*1D55.23 [[Salad spinner]]<br />
===60. Projectile Motion===<br />
*1D60.10 [[Cart with vertical ball launcher]]<br />
*1D60.20 [[Falling and shooting ball]]<br />
*1D60.30 [[Monkey and hunter]]<br />
*1D60.55 [[Parabolic trajectory on incline]]<br />
<br />
==1E - Relative Motion==<br />
<!--===10. Moving Reference Frames===--><br />
<!--===20. Rotating Reference Frames===--><br />
===30. Coriolis Effect===<br />
*1E30.28 [[Coriolis effect (painted ball on rotating platform)]]<br />
<br />
==1F - Newton's First Law==<br />
<!--===10. Measuring Inertia===--><br />
===20. Inertia of Rest===<br />
*1F20.30 [[Tablecloth and dishes]]<br />
*1F20.34 [[Cylindrical stack of discs]]<br />
===30. Inertia of Motion===<br />
*1F30.00 [[Rolling basketball]]<br />
<br />
==1G - Newton's Second Law==<br />
<!--===10. Force, Mass and Acceleration===--><br />
===20. Accelerated Reference Frames===<br />
*1G20.40 [[Cup and weights]] <br />
===30. Complex Systems===<br />
<br />
==1H - Newton's Third Law==<br />
===10. Action and Reaction===<br />
*1H10.20 [[Fan-car]]<br />
*1H10.90 [[Glider with magnets]]<br />
===11. Recoil===<br />
*1H11.30 [[Rocket on air track]]<br />
<br />
==1J - Statics and Rigid bodies==<br />
===10. Finding Center of Gravity===<br />
*1J10.09 [[Cardboard box]]<br />
*1J10.10 [[Non-uniform flat object]]<br />
<!--===11. Exceeding Center of Gravity===--><br />
===20. Stable, Unstable, and Neutral Equilibrium===<br />
*1J20.20 [[Center of mass of irregular objects]]<br />
*1J20.30 [[Balanced hammer and arc]]<br />
*1J20.45 [[Tightrope walker]]<br />
*1J20.70 [[Climbing double cone]]<br />
<!--===30. Resolution of Forces===--><br />
<!--===40. Static Torque===--><br />
<br />
==1K - Applications of Newton's Law==<br />
===10. Dynamic Torque===<br />
*1K10.30 [[Walking the spool]]<br />
===20. Friction===<br />
*1K20.30 [[Block pull]](static and dynamic friction)<br />
*1K20.71 [[Heavy bucket and rope friction]]<br />
<!--===30. Pressure===--><br />
<br />
<!--==1L - Gravity==--><br />
==1M - Work and Energy==<br />
<!--===10. Work===--><br />
===20. Simple Machines===<br />
*1M20.10 [[Pulleys]]<br />
*1M20.40 [[Lever level]]<br />
<!--===30. Non-Conservative forces===--><br />
===40. Conservation of Energy===<br />
*1M40.10 [[Bowling ball pendulum]]<br />
*1M40.20 [[Roller coaster]]<br />
*1M40.50 [[Large yo-yo]]<br />
<!--===50. Mechanical Power===--><br />
<br />
==1N - Linear Momentum and Collisions==<br />
<!--===10. Impulse and Thrust===--><br />
<!--===20. Conservation of Linear Momentum===--><br />
<!--===21. Mass and Momentum Transfer===--><br />
===22. Rockets===<br />
*1N22.10 [[Rocket bike]]<br />
*1N22.25 [[Balloons]]<br />
===30. Collisions on One Dimension===<br />
*1N30.10 [[Force propagation through collision]]<br />
*1N30.60 [[Basketball with tennis ball]]<br />
<!--===40. Collisions in Two Dimensions===--><br />
<br />
==1Q - Rotational Dynamics==<br />
===10. Moment of Inertia===<br />
*1Q10.30 [[Inclined plane]]<br />
*1Q10.40 [[Cylinder race down a ramp]]<br />
===20. Rotational Energy===<br />
*1Q20.25 [[Rotational dynamics pulleys]]<br />
*1Q20.40 [[Flywheel car]]<br />
*1Q20.50 [[Hinged stick and ball]]<br />
===30. Transfer of Angular Momentum===<br />
*1Q30.10 [[Rotating platform]]<br />
===40. Conservation of Angular Momentum===<br />
*1Q40.30 [[Bicycle wheel as spinning top]]<br />
===50. Gyros===<br />
*1Q50.21 [[Bicycle wheel as gyroscope]]<br />
*1Q50.30 [[Spinning gyroscopes and tops]]<br />
*1Q50.40 [[Briefcase with flywheel inside]]<br />
*1Q50.50 [[Spinning lariat, rod, and disc]]<br />
<!--===60. Rotational Stability===--><br />
<!--*1Q60.40 [[Stable and unstable axes of rotation]]--><br />
<br />
==1R - Properties of Matter==<br />
===10. Hooke's Law===<br />
*10R10.10 [[Hooke's Law]]<br />
<!--===20. Tensile and Compressible Stress===--><br />
<!--===30. Shear Stress===--><br />
<!--===40. Coefficient of Restitution===--><br />
<!--===50. Crystal Structure===--></div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Mechanics&diff=1136
Mechanics
2020-04-27T20:43:32Z
<p>Ljacques : Annulation des modifications 1135 de Ljacques (discussion)</p>
<hr />
<div>__NOTOC__<br />
==1A - Measurements==<br />
<!--===10. Basic units===<br />
*1A10.20 [[Weights]]<br />
*1A10.30 [[Standard meter stick]]<br />
*1A10.40 [[Timer]]--><br />
<!--===20. Error and accuracy===<br />
*1A20.25 [[Dice]]<br />
*1A20.41 [[Large Vernier Caliper]]<br />
*1A20.60 [[Reaction time with meter stick]]--><br />
<!--===30. Coordinate Systems===<br />
*1A30.22 [[Euler's Angle]]--><br />
<!--*1A30.40 [[Globe]]--><br />
<!--===40. Vectors===<br />
*1A40.20 [[Large vector arrows]]--><br />
<!--===50. Math Topics===--><br />
<!--===60. Scaling===--><br />
<br />
==1C - Motion in one dimension==<br />
===10. Velocity===<br />
*1C10.25 [[Air track]]<br />
===20. Uniform Acceleration===<br />
*1C20.10 [[Ball and feather in air/vacuum]]<br />
*1C20.11 [[Flat metal and paper sheet]]<br />
===30. Measuring ''g''===<br />
*1C30.35 [[Picket fence and photogate]]<br />
<br />
==1D - Motion in two dimensions==<br />
<!--===10. Displacement in Two Dimensions===--><br />
<!--===15. Velocity, Position and Acceleration===--><br />
===40. Motion of the Center of Mass===<br />
*1D40.00 [[Tennis racket rotation]]<br />
*1D40.00 [[Light tube rotation]]<br />
===50. Central Forces===<br />
*1D50.20 [[Whirligig]]<br />
*1D50.20 [[Lighter mass lifting heavier mass]]<br />
*1D50.40 [[Bucket with water]]<br />
===52. Deformation by Central Forces===<br />
*1D52.10 [[Flattening earth]]<br />
===55. Centrifugal Escape===<br />
*1D55.10 [[Broken ring]]<br />
*1D55.23 [[Salad spinner]]<br />
===60. Projectile Motion===<br />
*1D60.10 [[Cart with vertical ball launcher]]<br />
*1D60.20 [[Falling and shooting ball]]<br />
*1D60.30 [[Monkey and hunter]]<br />
*1D60.55 [[Parabolic trajectory on incline]]<br />
<br />
==1E - Relative Motion==<br />
<!--===10. Moving Reference Frames===--><br />
<!--===20. Rotating Reference Frames===--><br />
===30. Coriolis Effect===<br />
*1E30.28 [[Coriolis effect (painted ball on rotating platform)]]<br />
<br />
==1F - Newton's First Law==<br />
<!--===10. Measuring Inertia===--><br />
===20. Inertia of Rest===<br />
*1F20.30 [[Tablecloth and dishes]]<br />
*1F20.34 [[Cylindrical stack of discs]]<br />
===30. Inertia of Motion===<br />
*1F30.00 [[Rolling basketball]]<br />
<br />
==1G - Newton's Second Law==<br />
<!--===10. Force, Mass and Acceleration===--><br />
===20. Accelerated Reference Frames===<br />
*1G20.40 [[Cup and weights]] <br />
===30. Complex Systems===<br />
<br />
==1H - Newton's Third Law==<br />
===10. Action and Reaction===<br />
*1H10.20 [[Fan-car]]<br />
*1H10.90 [[Glider with magnets]]<br />
===11. Recoil===<br />
*1H11.30 [[Rocket on air track]]<br />
<br />
==1J - Statics and Rigid bodies==<br />
===10. Finding Center of Gravity===<br />
*1J10.09 [[Cardboard box]]<br />
*1J10.10 [[Non-uniform flat object]]<br />
<!--===11. Exceeding Center of Gravity===--><br />
===20. Stable, Unstable, and Neutral Equilibrium===<br />
*1J20.20 [[Center of mass of irregular objects]]<br />
*1J20.30 [[Balanced hammer and arc]]<br />
*1J20.45 [[Tightrope walker]]<br />
*1J20.70 [[Climbing double cone]]<br />
<!--===30. Resolution of Forces===--><br />
<!--===40. Static Torque===--><br />
<br />
==1K - Applications of Newton's Law==<br />
===10. Dynamic Torque===<br />
*1K10.30 [[Walking the spool]]<br />
===20. Friction===<br />
*1K20.30 [[Block pull]](static and dynamic friction)<br />
*1K20.71 [[Heavy bucket and rope friction]]<br />
<!--===30. Pressure===--><br />
<br />
<!--==1L - Gravity==--><br />
==1M - Work and Energy==<br />
<!--===10. Work===--><br />
===20. Simple Machines===<br />
*1M20.10 [[Pulleys]]<br />
*1M20.40 [[Lever level]]<br />
<!--===30. Non-Conservative forces===--><br />
===40. Conservation of Energy===<br />
*1M40.10 [[Bowling ball pendulum]]<br />
*1M40.20 [[Roller coaster]]<br />
*1M40.50 [[Large yo-yo]]<br />
<!--===50. Mechanical Power===--><br />
<br />
==1N - Linear Momentum and Collisions==<br />
<!--===10. Impulse and Thrust===--><br />
<!--===20. Conservation of Linear Momentum===--><br />
<!--===21. Mass and Momentum Transfer===--><br />
===22. Rockets===<br />
*1N22.10 [[Rocket bike]]<br />
*1N22.25 [[Balloons]]<br />
===30. Collisions on One Dimension===<br />
*1N30.10 [[Force propagation through collision]]<br />
*1N30.60 [[Basketball with tennis ball]]<br />
<!--===40. Collisions in Two Dimensions===--><br />
<br />
==1Q - Rotational Dynamics==<br />
===10. Moment of Inertia===<br />
*1Q10.30 [[Inclined plane]]<br />
*1Q10.40 [[Cylinder race down a ramp]]<br />
===20. Rotational Energy===<br />
*1Q20.25 [[Rotational dynamics pulleys]]<br />
*1Q20.40 [[Flywheel car]]<br />
*1Q20.50 [[Hinged stick and ball]]<br />
===30. Transfer of Angular Momentum===<br />
*1Q30.10 [[Rotating platform]]<br />
===40. Conservation of Angular Momentum===<br />
*1Q40.30 [[Bicycle wheel as spinning top]]<br />
===50. Gyros===<br />
*1Q50.21 [[Bicycle wheel as gyroscope]]<br />
*1Q50.30 [[Spinning gyroscopes and tops]]<br />
*1Q50.40 [[Briefcase with flywheel inside]]<br />
*1Q50.50 [[Spinning lariat, rod, and disc]]<br />
<!--===60. Rotational Stability===--><br />
<!--*1Q60.40 [[Stable and unstable axes of rotation]]--><br />
<br />
==1R - Properties of Matter==<br />
===10. Hooke's Law===<br />
*10R10.10 [[Hooke's Law]]<br />
<!--===20. Tensile and Compressible Stress===--><br />
<!--===30. Shear Stress===--><br />
<!--===40. Coefficient of Restitution===--><br />
<!--===50. Crystal Structure===--></div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Mechanics&diff=1135
Mechanics
2020-04-27T20:43:20Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
<br />
[[Image:Updated_logo_0.jpg]]<br />
==1A - Measurements==<br />
<!--===10. Basic units===<br />
*1A10.20 [[Weights]]<br />
*1A10.30 [[Standard meter stick]]<br />
*1A10.40 [[Timer]]--><br />
<!--===20. Error and accuracy===<br />
*1A20.25 [[Dice]]<br />
*1A20.41 [[Large Vernier Caliper]]<br />
*1A20.60 [[Reaction time with meter stick]]--><br />
<!--===30. Coordinate Systems===<br />
*1A30.22 [[Euler's Angle]]--><br />
<!--*1A30.40 [[Globe]]--><br />
<!--===40. Vectors===<br />
*1A40.20 [[Large vector arrows]]--><br />
<!--===50. Math Topics===--><br />
<!--===60. Scaling===--><br />
<br />
==1C - Motion in one dimension==<br />
===10. Velocity===<br />
*1C10.25 [[Air track]]<br />
===20. Uniform Acceleration===<br />
*1C20.10 [[Ball and feather in air/vacuum]]<br />
*1C20.11 [[Flat metal and paper sheet]]<br />
===30. Measuring ''g''===<br />
*1C30.35 [[Picket fence and photogate]]<br />
<br />
==1D - Motion in two dimensions==<br />
<!--===10. Displacement in Two Dimensions===--><br />
<!--===15. Velocity, Position and Acceleration===--><br />
===40. Motion of the Center of Mass===<br />
*1D40.00 [[Tennis racket rotation]]<br />
*1D40.00 [[Light tube rotation]]<br />
===50. Central Forces===<br />
*1D50.20 [[Whirligig]]<br />
*1D50.20 [[Lighter mass lifting heavier mass]]<br />
*1D50.40 [[Bucket with water]]<br />
===52. Deformation by Central Forces===<br />
*1D52.10 [[Flattening earth]]<br />
===55. Centrifugal Escape===<br />
*1D55.10 [[Broken ring]]<br />
*1D55.23 [[Salad spinner]]<br />
===60. Projectile Motion===<br />
*1D60.10 [[Cart with vertical ball launcher]]<br />
*1D60.20 [[Falling and shooting ball]]<br />
*1D60.30 [[Monkey and hunter]]<br />
*1D60.55 [[Parabolic trajectory on incline]]<br />
<br />
==1E - Relative Motion==<br />
<!--===10. Moving Reference Frames===--><br />
<!--===20. Rotating Reference Frames===--><br />
===30. Coriolis Effect===<br />
*1E30.28 [[Coriolis effect (painted ball on rotating platform)]]<br />
<br />
==1F - Newton's First Law==<br />
<!--===10. Measuring Inertia===--><br />
===20. Inertia of Rest===<br />
*1F20.30 [[Tablecloth and dishes]]<br />
*1F20.34 [[Cylindrical stack of discs]]<br />
===30. Inertia of Motion===<br />
*1F30.00 [[Rolling basketball]]<br />
<br />
==1G - Newton's Second Law==<br />
<!--===10. Force, Mass and Acceleration===--><br />
===20. Accelerated Reference Frames===<br />
*1G20.40 [[Cup and weights]] <br />
===30. Complex Systems===<br />
<br />
==1H - Newton's Third Law==<br />
===10. Action and Reaction===<br />
*1H10.20 [[Fan-car]]<br />
*1H10.90 [[Glider with magnets]]<br />
===11. Recoil===<br />
*1H11.30 [[Rocket on air track]]<br />
<br />
==1J - Statics and Rigid bodies==<br />
===10. Finding Center of Gravity===<br />
*1J10.09 [[Cardboard box]]<br />
*1J10.10 [[Non-uniform flat object]]<br />
<!--===11. Exceeding Center of Gravity===--><br />
===20. Stable, Unstable, and Neutral Equilibrium===<br />
*1J20.20 [[Center of mass of irregular objects]]<br />
*1J20.30 [[Balanced hammer and arc]]<br />
*1J20.45 [[Tightrope walker]]<br />
*1J20.70 [[Climbing double cone]]<br />
<!--===30. Resolution of Forces===--><br />
<!--===40. Static Torque===--><br />
<br />
==1K - Applications of Newton's Law==<br />
===10. Dynamic Torque===<br />
*1K10.30 [[Walking the spool]]<br />
===20. Friction===<br />
*1K20.30 [[Block pull]](static and dynamic friction)<br />
*1K20.71 [[Heavy bucket and rope friction]]<br />
<!--===30. Pressure===--><br />
<br />
<!--==1L - Gravity==--><br />
==1M - Work and Energy==<br />
<!--===10. Work===--><br />
===20. Simple Machines===<br />
*1M20.10 [[Pulleys]]<br />
*1M20.40 [[Lever level]]<br />
<!--===30. Non-Conservative forces===--><br />
===40. Conservation of Energy===<br />
*1M40.10 [[Bowling ball pendulum]]<br />
*1M40.20 [[Roller coaster]]<br />
*1M40.50 [[Large yo-yo]]<br />
<!--===50. Mechanical Power===--><br />
<br />
==1N - Linear Momentum and Collisions==<br />
<!--===10. Impulse and Thrust===--><br />
<!--===20. Conservation of Linear Momentum===--><br />
<!--===21. Mass and Momentum Transfer===--><br />
===22. Rockets===<br />
*1N22.10 [[Rocket bike]]<br />
*1N22.25 [[Balloons]]<br />
===30. Collisions on One Dimension===<br />
*1N30.10 [[Force propagation through collision]]<br />
*1N30.60 [[Basketball with tennis ball]]<br />
<!--===40. Collisions in Two Dimensions===--><br />
<br />
==1Q - Rotational Dynamics==<br />
===10. Moment of Inertia===<br />
*1Q10.30 [[Inclined plane]]<br />
*1Q10.40 [[Cylinder race down a ramp]]<br />
===20. Rotational Energy===<br />
*1Q20.25 [[Rotational dynamics pulleys]]<br />
*1Q20.40 [[Flywheel car]]<br />
*1Q20.50 [[Hinged stick and ball]]<br />
===30. Transfer of Angular Momentum===<br />
*1Q30.10 [[Rotating platform]]<br />
===40. Conservation of Angular Momentum===<br />
*1Q40.30 [[Bicycle wheel as spinning top]]<br />
===50. Gyros===<br />
*1Q50.21 [[Bicycle wheel as gyroscope]]<br />
*1Q50.30 [[Spinning gyroscopes and tops]]<br />
*1Q50.40 [[Briefcase with flywheel inside]]<br />
*1Q50.50 [[Spinning lariat, rod, and disc]]<br />
<!--===60. Rotational Stability===--><br />
<!--*1Q60.40 [[Stable and unstable axes of rotation]]--><br />
<br />
==1R - Properties of Matter==<br />
===10. Hooke's Law===<br />
*10R10.10 [[Hooke's Law]]<br />
<!--===20. Tensile and Compressible Stress===--><br />
<!--===30. Shear Stress===--><br />
<!--===40. Coefficient of Restitution===--><br />
<!--===50. Crystal Structure===--></div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Mechanics&diff=1132
Mechanics
2020-03-31T17:16:22Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
==1A - Measurements==<br />
<!--===10. Basic units===<br />
*1A10.20 [[Weights]]<br />
*1A10.30 [[Standard meter stick]]<br />
*1A10.40 [[Timer]]--><br />
<!--===20. Error and accuracy===<br />
*1A20.25 [[Dice]]<br />
*1A20.41 [[Large Vernier Caliper]]<br />
*1A20.60 [[Reaction time with meter stick]]--><br />
<!--===30. Coordinate Systems===<br />
*1A30.22 [[Euler's Angle]]--><br />
<!--*1A30.40 [[Globe]]--><br />
<!--===40. Vectors===<br />
*1A40.20 [[Large vector arrows]]--><br />
<!--===50. Math Topics===--><br />
<!--===60. Scaling===--><br />
<br />
==1C - Motion in one dimension==<br />
===10. Velocity===<br />
*1C10.25 [[Air track]]<br />
===20. Uniform Acceleration===<br />
*1C20.10 [[Ball and feather in air/vacuum]]<br />
*1C20.11 [[Flat metal and paper sheet]]<br />
===30. Measuring ''g''===<br />
*1C30.35 [[Picket fence and photogate]]<br />
<br />
==1D - Motion in two dimensions==<br />
<!--===10. Displacement in Two Dimensions===--><br />
<!--===15. Velocity, Position and Acceleration===--><br />
===40. Motion of the Center of Mass===<br />
*1D40.00 [[Tennis racket rotation]]<br />
*1D40.00 [[Light tube rotation]]<br />
===50. Central Forces===<br />
*1D50.20 [[Whirligig]]<br />
*1D50.20 [[Lighter mass lifting heavier mass]]<br />
*1D50.40 [[Bucket with water]]<br />
===52. Deformation by Central Forces===<br />
*1D52.10 [[Flattening earth]]<br />
===55. Centrifugal Escape===<br />
*1D55.10 [[Broken ring]]<br />
*1D55.23 [[Salad spinner]]<br />
===60. Projectile Motion===<br />
*1D60.10 [[Cart with vertical ball launcher]]<br />
*1D60.20 [[Falling and shooting ball]]<br />
*1D60.30 [[Monkey and hunter]]<br />
*1D60.55 [[Parabolic trajectory on incline]]<br />
<br />
==1E - Relative Motion==<br />
<!--===10. Moving Reference Frames===--><br />
<!--===20. Rotating Reference Frames===--><br />
===30. Coriolis Effect===<br />
*1E30.28 [[Coriolis effect (painted ball on rotating platform)]]<br />
<br />
==1F - Newton's First Law==<br />
<!--===10. Measuring Inertia===--><br />
===20. Inertia of Rest===<br />
*1F20.30 [[Tablecloth and dishes]]<br />
*1F20.34 [[Cylindrical stack of discs]]<br />
===30. Inertia of Motion===<br />
*1F30.00 [[Rolling basketball]]<br />
<br />
==1G - Newton's Second Law==<br />
<!--===10. Force, Mass and Acceleration===--><br />
===20. Accelerated Reference Frames===<br />
*1G20.40 [[Cup and weights]] <br />
===30. Complex Systems===<br />
<br />
==1H - Newton's Third Law==<br />
===10. Action and Reaction===<br />
*1H10.20 [[Fan-car]]<br />
*1H10.90 [[Glider with magnets]]<br />
===11. Recoil===<br />
*1H11.30 [[Rocket on air track]]<br />
<br />
==1J - Statics and Rigid bodies==<br />
===10. Finding Center of Gravity===<br />
*1J10.09 [[Cardboard box]]<br />
*1J10.10 [[Non-uniform flat object]]<br />
<!--===11. Exceeding Center of Gravity===--><br />
===20. Stable, Unstable, and Neutral Equilibrium===<br />
*1J20.20 [[Center of mass of irregular objects]]<br />
*1J20.30 [[Balanced hammer and arc]]<br />
*1J20.45 [[Tightrope walker]]<br />
*1J20.70 [[Climbing double cone]]<br />
<!--===30. Resolution of Forces===--><br />
<!--===40. Static Torque===--><br />
<br />
==1K - Applications of Newton's Law==<br />
===10. Dynamic Torque===<br />
*1K10.30 [[Walking the spool]]<br />
===20. Friction===<br />
*1K20.30 [[Block pull]](static and dynamic friction)<br />
*1K20.71 [[Heavy bucket and rope friction]]<br />
<!--===30. Pressure===--><br />
<br />
<!--==1L - Gravity==--><br />
==1M - Work and Energy==<br />
<!--===10. Work===--><br />
===20. Simple Machines===<br />
*1M20.10 [[Pulleys]]<br />
*1M20.40 [[Lever level]]<br />
<!--===30. Non-Conservative forces===--><br />
===40. Conservation of Energy===<br />
*1M40.10 [[Bowling ball pendulum]]<br />
*1M40.20 [[Roller coaster]]<br />
*1M40.50 [[Large yo-yo]]<br />
<!--===50. Mechanical Power===--><br />
<br />
==1N - Linear Momentum and Collisions==<br />
<!--===10. Impulse and Thrust===--><br />
<!--===20. Conservation of Linear Momentum===--><br />
<!--===21. Mass and Momentum Transfer===--><br />
===22. Rockets===<br />
*1N22.10 [[Rocket bike]]<br />
*1N22.25 [[Balloons]]<br />
===30. Collisions on One Dimension===<br />
*1N30.10 [[Force propagation through collision]]<br />
*1N30.60 [[Basketball with tennis ball]]<br />
<!--===40. Collisions in Two Dimensions===--><br />
<br />
==1Q - Rotational Dynamics==<br />
===10. Moment of Inertia===<br />
*1Q10.30 [[Inclined plane]]<br />
*1Q10.40 [[Cylinder race down a ramp]]<br />
===20. Rotational Energy===<br />
*1Q20.25 [[Rotational dynamics pulleys]]<br />
*1Q20.40 [[Flywheel car]]<br />
*1Q20.50 [[Hinged stick and ball]]<br />
===30. Transfer of Angular Momentum===<br />
*1Q30.10 [[Rotating platform]]<br />
===40. Conservation of Angular Momentum===<br />
*1Q40.30 [[Bicycle wheel as spinning top]]<br />
===50. Gyros===<br />
*1Q50.21 [[Bicycle wheel as gyroscope]]<br />
*1Q50.30 [[Spinning gyroscopes and tops]]<br />
*1Q50.40 [[Briefcase with flywheel inside]]<br />
*1Q50.50 [[Spinning lariat, rod, and disc]]<br />
<!--===60. Rotational Stability===--><br />
<!--*1Q60.40 [[Stable and unstable axes of rotation]]--><br />
<br />
==1R - Properties of Matter==<br />
===10. Hooke's Law===<br />
*10R10.10 [[Hooke's Law]]<br />
<!--===20. Tensile and Compressible Stress===--><br />
<!--===30. Shear Stress===--><br />
<!--===40. Coefficient of Restitution===--><br />
<!--===50. Crystal Structure===--></div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Mechanics&diff=1131
Mechanics
2020-03-31T17:15:40Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
==1A - Measurements==<br />
<!--===10. Basic units===<br />
*1A10.20 [[Weights]]<br />
*1A10.30 [[Standard meter stick]]<br />
*1A10.40 [[Timer]]--><br />
<!--===20. Error and accuracy===<br />
*1A20.25 [[Dice]]<br />
*1A20.41 [[Large Vernier Caliper]]<br />
*1A20.60 [[Reaction time with meter stick]]--><br />
===30. Coordinate Systems===<br />
<!--*1A30.22 [[Euler's Angle]]--><br />
<!--*1A30.40 [[Globe]]--><br />
<!--===40. Vectors===<br />
*1A40.20 [[Large vector arrows]]--><br />
<!--===50. Math Topics===--><br />
<!--===60. Scaling===--><br />
<br />
==1C - Motion in one dimension==<br />
===10. Velocity===<br />
*1C10.25 [[Air track]]<br />
===20. Uniform Acceleration===<br />
*1C20.10 [[Ball and feather in air/vacuum]]<br />
*1C20.11 [[Flat metal and paper sheet]]<br />
===30. Measuring ''g''===<br />
*1C30.35 [[Picket fence and photogate]]<br />
<br />
==1D - Motion in two dimensions==<br />
<!--===10. Displacement in Two Dimensions===--><br />
<!--===15. Velocity, Position and Acceleration===--><br />
===40. Motion of the Center of Mass===<br />
*1D40.00 [[Tennis racket rotation]]<br />
*1D40.00 [[Light tube rotation]]<br />
===50. Central Forces===<br />
*1D50.20 [[Whirligig]]<br />
*1D50.20 [[Lighter mass lifting heavier mass]]<br />
*1D50.40 [[Bucket with water]]<br />
===52. Deformation by Central Forces===<br />
*1D52.10 [[Flattening earth]]<br />
===55. Centrifugal Escape===<br />
*1D55.10 [[Broken ring]]<br />
*1D55.23 [[Salad spinner]]<br />
===60. Projectile Motion===<br />
*1D60.10 [[Cart with vertical ball launcher]]<br />
*1D60.20 [[Falling and shooting ball]]<br />
*1D60.30 [[Monkey and hunter]]<br />
*1D60.55 [[Parabolic trajectory on incline]]<br />
<br />
==1E - Relative Motion==<br />
<!--===10. Moving Reference Frames===--><br />
<!--===20. Rotating Reference Frames===--><br />
===30. Coriolis Effect===<br />
*1E30.28 [[Coriolis effect (painted ball on rotating platform)]]<br />
<br />
==1F - Newton's First Law==<br />
<!--===10. Measuring Inertia===--><br />
===20. Inertia of Rest===<br />
*1F20.30 [[Tablecloth and dishes]]<br />
*1F20.34 [[Cylindrical stack of discs]]<br />
===30. Inertia of Motion===<br />
*1F30.00 [[Rolling basketball]]<br />
<br />
==1G - Newton's Second Law==<br />
<!--===10. Force, Mass and Acceleration===--><br />
===20. Accelerated Reference Frames===<br />
*1G20.40 [[Cup and weights]] <br />
===30. Complex Systems===<br />
<br />
==1H - Newton's Third Law==<br />
===10. Action and Reaction===<br />
*1H10.20 [[Fan-car]]<br />
*1H10.90 [[Glider with magnets]]<br />
===11. Recoil===<br />
*1H11.30 [[Rocket on air track]]<br />
<br />
==1J - Statics and Rigid bodies==<br />
===10. Finding Center of Gravity===<br />
*1J10.09 [[Cardboard box]]<br />
*1J10.10 [[Non-uniform flat object]]<br />
<!--===11. Exceeding Center of Gravity===--><br />
===20. Stable, Unstable, and Neutral Equilibrium===<br />
*1J20.20 [[Center of mass of irregular objects]]<br />
*1J20.30 [[Balanced hammer and arc]]<br />
*1J20.45 [[Tightrope walker]]<br />
*1J20.70 [[Climbing double cone]]<br />
<!--===30. Resolution of Forces===--><br />
<!--===40. Static Torque===--><br />
<br />
==1K - Applications of Newton's Law==<br />
===10. Dynamic Torque===<br />
*1K10.30 [[Walking the spool]]<br />
===20. Friction===<br />
*1K20.30 [[Block pull]](static and dynamic friction)<br />
*1K20.71 [[Heavy bucket and rope friction]]<br />
<!--===30. Pressure===--><br />
<br />
<!--==1L - Gravity==--><br />
==1M - Work and Energy==<br />
<!--===10. Work===--><br />
===20. Simple Machines===<br />
*1M20.10 [[Pulleys]]<br />
*1M20.40 [[Lever level]]<br />
<!--===30. Non-Conservative forces===--><br />
===40. Conservation of Energy===<br />
*1M40.10 [[Bowling ball pendulum]]<br />
*1M40.20 [[Roller coaster]]<br />
*1M40.50 [[Large yo-yo]]<br />
<!--===50. Mechanical Power===--><br />
<br />
==1N - Linear Momentum and Collisions==<br />
<!--===10. Impulse and Thrust===--><br />
<!--===20. Conservation of Linear Momentum===--><br />
<!--===21. Mass and Momentum Transfer===--><br />
===22. Rockets===<br />
*1N22.10 [[Rocket bike]]<br />
*1N22.25 [[Balloons]]<br />
===30. Collisions on One Dimension===<br />
*1N30.10 [[Force propagation through collision]]<br />
*1N30.60 [[Basketball with tennis ball]]<br />
<!--===40. Collisions in Two Dimensions===--><br />
<br />
==1Q - Rotational Dynamics==<br />
===10. Moment of Inertia===<br />
*1Q10.30 [[Inclined plane]]<br />
*1Q10.40 [[Cylinder race down a ramp]]<br />
===20. Rotational Energy===<br />
*1Q20.25 [[Rotational dynamics pulleys]]<br />
*1Q20.40 [[Flywheel car]]<br />
*1Q20.50 [[Hinged stick and ball]]<br />
===30. Transfer of Angular Momentum===<br />
*1Q30.10 [[Rotating platform]]<br />
===40. Conservation of Angular Momentum===<br />
*1Q40.30 [[Bicycle wheel as spinning top]]<br />
===50. Gyros===<br />
*1Q50.21 [[Bicycle wheel as gyroscope]]<br />
*1Q50.30 [[Spinning gyroscopes and tops]]<br />
*1Q50.40 [[Briefcase with flywheel inside]]<br />
*1Q50.50 [[Spinning lariat, rod, and disc]]<br />
<!--===60. Rotational Stability===--><br />
<!--*1Q60.40 [[Stable and unstable axes of rotation]]--><br />
<br />
==1R - Properties of Matter==<br />
===10. Hooke's Law===<br />
*10R10.10 [[Hooke's Law]]<br />
<!--===20. Tensile and Compressible Stress===--><br />
<!--===30. Shear Stress===--><br />
<!--===40. Coefficient of Restitution===--><br />
<!--===50. Crystal Structure===--></div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Optics&diff=1127
Optics
2018-09-12T17:56:56Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
==6A - Geometrical optics==<br />
<!--===01. Speed of light===--><br />
<!--===02. Straight line propagation===--><br />
===10. Reflection from flat surfaces===<br />
* 6A10.30 [[Corner cube reflector]]<br />
===20. Reflection from curved surfaces===<br />
* 6A20.35 [[Optic Mirage]]<br />
* 6A20.37 [[Hemispherical mirror]]<br />
<!--===40. Refractive index===--><br />
<!--===42. Refraction at flat surfaces===--><br />
===44. Total internal reflection===<br />
* 6A44.20 [[Refraction tank]]<br />
* 6A44.40 [[Light pipe]]<br />
===46. Rainbow===<br />
* 6A46.10 [[Optical prism]]<br />
===60. Thin lens===<br />
* 6A60.31 [[Projected arrow with a lens]]<br />
<!--===61. Pinhole===--><br />
<!--===65. Thick lens===--><br />
<!--===70. Optical instruments===--><br />
<br />
<!--==6B - Photometry==--><br />
<!--===10. Luminosity===--><br />
<!--===30. Radation pressure===--><br />
<!--===40. Blackbodies===--><br />
<br />
==6C - Diffraction==<br />
===10. Diffraction through one slit===<br />
* 6C10.10 [[Single slit and laser]]<br />
===20. Diffraction around objects===<br />
<br />
==6D - Interference==<br />
===10. Interference from two sources===<br />
* 6D10.10 [[Double slit and laser]]<br />
<!--===15. Interference of polarized light===--><br />
===20. Gratings===<br />
* 6D20.20 [[Dispersion of light using grating]]<br />
===30. Thin films===<br />
* 6D30.20 [[Soap film interference]]<br />
===40. Interferometers===<br />
* 6D40.10 [[Michelson interferometer]]<br />
<br />
==6F - Color==<br />
===10. Synthesis and analysis of color===<br />
*6F10.25 [[Newton color disk]]<br />
<!--===30. Dispersion===--><br />
===40. Scattering===<br />
*6F40.10 [[Artificial Sunset]]<br />
<br />
==6H - Polarization==<br />
===10. Dichroic polarization===<br />
6H10.10 [[Three polarizing sheets]]<br />
===20. Polarization by reflection===<br />
<!--===30. Circular polarization===--><br />
<!--===35. Birefringence===--><br />
<!--===50. Polarization by scattering===--><br />
<br />
<!--==6J - The eye==--><br />
<!--==6Q - Modern optics==--></div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Hooke%27s_Law&diff=1126
Hooke's Law
2018-08-07T14:00:00Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
<br />
Back to [[1R - Properties of Matter]]<br><br />
PIRA index: 1R10.10<br />
<br />
==Description==<br />
A spring extends(or compress) proportionally with the force <br />
<br />
==Equipment==<br />
*Spring<br />
*Masses<br />
*Ruler<br />
*Support stand<br />
*Clamp<br />
*Clamp holder<br />
<br />
==Instructions==<br />
<br />
==Keywords==<br />
<br />
==Images & Movies==<br />
<gallery><br />
File:1R10_10_Springandmass01.jpg<br />
</gallery></div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Electricity_and_magnetism&diff=1125
Electricity and magnetism
2018-08-03T15:19:47Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
==5A - Electrostatics==<br />
===10. Producing static charge===<br />
*5A10.00 [[Discharging with a flame]]<br />
*5A10.10 [[Triboelectric effect]]<br />
*5A10.20 [[Electrophorus]]<br />
===20. Coulomb's law===<br />
*5A20.25 [[Ping-pong ball electroscope]]<br />
*5A20.30 [[Balloon electroscope]]<br />
<!--===22. Electrostatic meters===--><br />
<!--*5A22.10 [[Braun electroscope]]--><br />
<!--===30. Conductors and insulators===--><br />
<!--*5A30.10 [[Wire versus string]]--><br />
===40. Induced charge===<br />
*5A40.10 [[Charging by induction]]<br />
<!-- *5A40.15 [[Electroscope by induction]] --><br />
*5A40.17 [[Polarizing by induction]]<br />
*5A40.40 [[Deflection of a water stream]]`<br />
*5A40.70 [[Kelvin water dropper]]<br />
===50. Electrostatic machines===<br />
*5A50.10 [[Wimshurst machine]]<br />
*5A50.30 [[Van de Graaff generator]]<br />
*5A50.35 [[Fun Fly Stick]]<br />
<br />
==5B - Electric fields and potentials==<br />
===10. Electric field===<br />
*5B10.15 [[Van de Graaf streamers]]<br />
*5B10.25 [[Puffed wheat on electrostatic generator]]<br />
*5B10.25 [[Stacked aluminium plates on electrostatic generator]]<br />
*5B10.31 [[Ping pong ball bouncing between parallel charged plates]]<br />
*5B10.35 [[Balloon bouncing between two charges]]<br />
*5B10.40 [[Grass seeds in electric field]]<br />
===20. Gauss' law===<br />
===30. Electrostatic potential===<br />
*5B30.00 [[Electrostatic Roller Ball]]<br />
*5B30.50 [[Electrostatic pinwheel/Ionic drive]]<br />
<!--*5B30.95 [[Human discharge chain]]--><br />
<br />
==5C - Capacitance==<br />
===10. Capacitors===<br />
*5C10.00 [[Capacitors cut in half]]<br />
*5C10.10 [[Various capacitors sample]]<br />
*5C10.20 [[Parallel plate capacitor]]<br />
*5C10.35 [[Rotary capacitor]]<br />
===20. Dielectric===<br />
*5C20.10 [[parallel plate capacitor with dielectric]]<br />
===30. Energy stored in a capacitor===<br />
*5C30.10 [[Leyden jar]]<br />
*5C30.20 [[Short a capacitor]]<br />
*5C30.30 [[Capacitor charging and discharging through a light bulb]]<br />
<br />
==5D - Resistance==<br />
===10. Resistance characteristics===<br />
*5D10.10 [[Measuring resistance]]<br />
===20. Resistivity and temperature===<br />
*5D20.10 [[Cooled wire]]<br />
*5D20.20 [[Heat in shorted battery]]<br />
===30. Conduction in solutions===<br />
*5D30.10 [[Conduction through salt water]]<br />
<!--===40. Conduction in gases===--><br />
<br />
==5E - Electromotive force and current==<br />
<!--===20. Electrolysis===--><br />
<!--===30. Plating===--><br />
===40. Cells and batteries===<br />
* 5E40.25 [[Lemon battery]]<br />
<!--===50. Thermoelectricity===--><br />
===60. Piezoelectricity===<br />
*5E60.20 [[Piezoelectric sparker]]<br />
<br />
==5F - DC circuits==<br />
<!--===10. Ohm's law===--><br />
<!--===15. Power and energy===--><br />
<!--===20. Circuit analysis===--><br />
<!--===30. RC circuits===--><br />
===40. Instruments===<br />
*5F40.10 [[Galvanometer]]<br />
<br />
<!--==5G - Magnetic materials==--><br />
<!--===10. Magnets===--><br />
<!--===20. Magnet domains & magnetization===--><br />
<!--===30. Paramagnetism and diamagnetism===--><br />
<!--===40. Hysteresis===--><br />
<!--===45. Magnetostriction and magnetoresistance===--><br />
<!--===50. Temperature and magnetism===--><br />
<br />
==5H - Magnetic fields and forces==<br />
===10. Magnetic fields===<br />
*5H10.20 [[Oersted's effect]]<br />
<!--===15. Fields and currents===--><br />
===20. Forces on magnets===<br />
*5H20.20 [[Levitating magnet]]<br />
===25. Magnet/electromagnet interactions===<br />
*5H25.11 [[Large coil and paper clip]]<br />
===30. Force on moving charges===<br />
<!--===40. Force on current in wires===--><br />
<!--===50. Torques on coils===--><br />
<br />
==5J - Inductance==<br />
<!--===10. Self inductance===--><br />
===20. LR circuits===<br />
*5J20.21 [[Lamps in series and parallel with a large electromagnet]]<br />
===30. RLC circuits - DC===<br />
<br />
==5K - Electromagnetic induction==<br />
===10. Induced currents and forces===<br />
*5K10.20 [[Induction coil with galvanometer]]<br />
===20. Eddy currents===<br />
*5K20.10 [[Eddy current in a pendulum]]<br />
*5K20.20 [[Magnet falling in a metallic tube]]<br />
*5K20.40 [[Magnets over a spinning aluminium disk]]<br />
*5K20.55 [[Magnetic coil over a spinning aluminium disk]]<br />
===30. Transformers===<br />
*5K30.20 [[Small Transformer]]<br />
*5K30.30 [[Transformer with light bulb]]<br />
*5K30.34 [[Autotransformer]]<br />
*5K30.52 [[Exploratory coil on an oscilloscope]]<br />
===40. Motors and generators===<br />
*5K40.00 [[Various electric motors]]<br />
*5K40.10 [[Simple DC motor]]<br />
*5K40.18 [[Large simple motor]]<br />
*5K40.80 [[Hand crank generator with light]]<br />
<br />
<!--==5L - AC circuits==--><br />
<!--===10. Impedance===--><br />
<!--===20. LCR circuits - AC===--><br />
<!--*5L30.10 [[RLC circuit]]--><br />
<!--*5L30.10 [[Resonance]]--><br />
<!--===30. Filters and rectifiers===--><br />
<!--*5L30.36 [[RL and RC circuit]]--><br />
<br />
<!--==5M - Semiconductors and tubes==--><br />
<!--===10. Semiconductors===--><br />
<!--*5M10.50 [[Diode]]--><br />
<!--*5M10.55 [[Light emitting diode]] --><br />
<!--===20. Tubes===--><br />
<!--*5M20.10 [[Discharge tube]]--><br />
<!--*5M20.2? [[Electron in a gas tube]]--><br />
<br />
==5N - Electromagnetic radiation==<br />
===10. Transmission lines and antennas===<br />
*5N10.57 [[Microwave standing wave]]<br />
<!--===20. Tesla coil===--><br />
===30. Electromagnetic spectrum===<br />
* 5N30.10 [[Optical prism]]</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Electricity_and_magnetism&diff=1124
Electricity and magnetism
2018-08-01T15:57:38Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
==5A - Electrostatics==<br />
===10. Producing static charge===<br />
*5A10.00 [[Discharging with a flame]]<br />
*5A10.10 [[Triboelectric effect]]<br />
*5A10.20 [[Electrophorus]]<br />
===20. Coulomb's law===<br />
*5A20.25 [[Ping-pong ball electroscope]]<br />
*5A20.30 [[Balloon electroscope]]<br />
<!--===22. Electrostatic meters===--><br />
<!--*5A22.10 [[Braun electroscope]]--><br />
<!--===30. Conductors and insulators===--><br />
<!--*5A30.10 [[Wire versus string]]--><br />
===40. Induced charge===<br />
*5A40.10 [[Charging by induction]]<br />
<!-- *5A40.15 [[Electroscope by induction]] --><br />
*5A40.17 [[Polarizing by induction]]<br />
*5A40.40 [[Deflection of a water stream]]`<br />
*5A40.70 [[Kelvin water dropper]]<br />
===50. Electrostatic machines===<br />
*5A50.10 [[Wimshurst machine]]<br />
*5A50.30 [[Van de Graaff generator]]<br />
<br />
==5B - Electric fields and potentials==<br />
===10. Electric field===<br />
*5B10.15 [[Van de Graaf streamers]]<br />
*5B10.25 [[Puffed wheat on electrostatic generator]]<br />
*5B10.25 [[Stacked aluminium plates on electrostatic generator]]<br />
*5B10.31 [[Ping pong ball bouncing between parallel charged plates]]<br />
*5B10.35 [[Balloon bouncing between two charges]]<br />
*5B10.40 [[Grass seeds in electric field]]<br />
===20. Gauss' law===<br />
===30. Electrostatic potential===<br />
*5B30.00 [[Electrostatic Roller Ball]]<br />
*5B30.50 [[Electrostatic pinwheel/Ionic drive]]<br />
<!--*5B30.95 [[Human discharge chain]]--><br />
<br />
==5C - Capacitance==<br />
===10. Capacitors===<br />
*5C10.00 [[Capacitors cut in half]]<br />
*5C10.10 [[Various capacitors sample]]<br />
*5C10.20 [[Parallel plate capacitor]]<br />
*5C10.35 [[Rotary capacitor]]<br />
===20. Dielectric===<br />
*5C20.10 [[parallel plate capacitor with dielectric]]<br />
===30. Energy stored in a capacitor===<br />
*5C30.10 [[Leyden jar]]<br />
*5C30.20 [[Short a capacitor]]<br />
*5C30.30 [[Capacitor charging and discharging through a light bulb]]<br />
<br />
==5D - Resistance==<br />
===10. Resistance characteristics===<br />
*5D10.10 [[Measuring resistance]]<br />
===20. Resistivity and temperature===<br />
*5D20.10 [[Cooled wire]]<br />
*5D20.20 [[Heat in shorted battery]]<br />
===30. Conduction in solutions===<br />
*5D30.10 [[Conduction through salt water]]<br />
<!--===40. Conduction in gases===--><br />
<br />
==5E - Electromotive force and current==<br />
<!--===20. Electrolysis===--><br />
<!--===30. Plating===--><br />
===40. Cells and batteries===<br />
* 5E40.25 [[Lemon battery]]<br />
<!--===50. Thermoelectricity===--><br />
===60. Piezoelectricity===<br />
*5E60.20 [[Piezoelectric sparker]]<br />
<br />
==5F - DC circuits==<br />
<!--===10. Ohm's law===--><br />
<!--===15. Power and energy===--><br />
<!--===20. Circuit analysis===--><br />
<!--===30. RC circuits===--><br />
===40. Instruments===<br />
*5F40.10 [[Galvanometer]]<br />
<br />
<!--==5G - Magnetic materials==--><br />
<!--===10. Magnets===--><br />
<!--===20. Magnet domains & magnetization===--><br />
<!--===30. Paramagnetism and diamagnetism===--><br />
<!--===40. Hysteresis===--><br />
<!--===45. Magnetostriction and magnetoresistance===--><br />
<!--===50. Temperature and magnetism===--><br />
<br />
==5H - Magnetic fields and forces==<br />
===10. Magnetic fields===<br />
*5H10.20 [[Oersted's effect]]<br />
<!--===15. Fields and currents===--><br />
===20. Forces on magnets===<br />
*5H20.20 [[Levitating magnet]]<br />
===25. Magnet/electromagnet interactions===<br />
*5H25.11 [[Large coil and paper clip]]<br />
===30. Force on moving charges===<br />
<!--===40. Force on current in wires===--><br />
<!--===50. Torques on coils===--><br />
<br />
==5J - Inductance==<br />
<!--===10. Self inductance===--><br />
===20. LR circuits===<br />
*5J20.21 [[Lamps in series and parallel with a large electromagnet]]<br />
===30. RLC circuits - DC===<br />
<br />
==5K - Electromagnetic induction==<br />
===10. Induced currents and forces===<br />
*5K10.20 [[Induction coil with galvanometer]]<br />
===20. Eddy currents===<br />
*5K20.10 [[Eddy current in a pendulum]]<br />
*5K20.20 [[Magnet falling in a metallic tube]]<br />
*5K20.40 [[Magnets over a spinning aluminium disk]]<br />
*5K20.55 [[Magnetic coil over a spinning aluminium disk]]<br />
===30. Transformers===<br />
*5K30.20 [[Small Transformer]]<br />
*5K30.30 [[Transformer with light bulb]]<br />
*5K30.34 [[Autotransformer]]<br />
*5K30.52 [[Exploratory coil on an oscilloscope]]<br />
===40. Motors and generators===<br />
*5K40.00 [[Various electric motors]]<br />
*5K40.10 [[Simple DC motor]]<br />
*5K40.18 [[Large simple motor]]<br />
*5K40.80 [[Hand crank generator with light]]<br />
<br />
<!--==5L - AC circuits==--><br />
<!--===10. Impedance===--><br />
<!--===20. LCR circuits - AC===--><br />
<!--*5L30.10 [[RLC circuit]]--><br />
<!--*5L30.10 [[Resonance]]--><br />
<!--===30. Filters and rectifiers===--><br />
<!--*5L30.36 [[RL and RC circuit]]--><br />
<br />
<!--==5M - Semiconductors and tubes==--><br />
<!--===10. Semiconductors===--><br />
<!--*5M10.50 [[Diode]]--><br />
<!--*5M10.55 [[Light emitting diode]] --><br />
<!--===20. Tubes===--><br />
<!--*5M20.10 [[Discharge tube]]--><br />
<!--*5M20.2? [[Electron in a gas tube]]--><br />
<br />
==5N - Electromagnetic radiation==<br />
===10. Transmission lines and antennas===<br />
*5N10.57 [[Microwave standing wave]]<br />
<!--===20. Tesla coil===--><br />
===30. Electromagnetic spectrum===<br />
* 5N30.10 [[Optical prism]]</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Deflection_of_a_water_stream&diff=1123
Deflection of a water stream
2018-07-30T15:24:31Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
PIRA index: 5A40.40<br />
<br />
==Description==<br />
A charged object will deflect horizontally a stream of free falling water. <br />
<br />
==Equipment==<br />
* Faucet or separatory funnel with support<br />
* Sink or Large container<br />
* Charged object<br />
<br />
<br />
==Instructions==<br />
Let the water flow. Approach charged object close to the stream but do not touch the water. The stream should bend toward the object. <br />
<br />
<br />
==Keywords==<br />
<br />
<br />
==Images & Movies==<br />
{{#widget:YouTube|id=QWm17mhjEVw}}</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Electricity_and_magnetism&diff=1122
Electricity and magnetism
2018-07-27T13:10:40Z
<p>Ljacques : /* 40. Motors and generators */</p>
<hr />
<div>__NOTOC__<br />
==5A - Electrostatics==<br />
===10. Producing static charge===<br />
*5A10.00 [[Discharging with a flame]]<br />
*5A10.10 [[Triboelectric effect]]<br />
*5A10.20 [[Electrophorus]]<br />
===20. Coulomb's law===<br />
*5A20.25 [[Ping-pong ball electroscope]]<br />
*5A20.30 [[Balloon electroscope]]<br />
<!--===22. Electrostatic meters===--><br />
<!--*5A22.10 [[Braun electroscope]]--><br />
<!--===30. Conductors and insulators===--><br />
<!--*5A30.10 [[Wire versus string]]--><br />
===40. Induced charge===<br />
*5A40.10 [[Charging by induction]]<br />
<!-- *5A40.15 [[Electroscope by induction]] --><br />
*5A40.17 [[Polarizing by induction]]<br />
*5A40.40 [[Deflection of a water stream]]`<br />
*5A40.70 [[Kelvin water dropper]]<br />
===50. Electrostatic machines===<br />
*5A50.10 [[Wimshurst machine]]<br />
*5A50.30 [[Van de Graaff generator]]<br />
<br />
==5B - Electric fields and potentials==<br />
===10. Electric field===<br />
*5B10.15 [[Van de Graaf streamers]]<br />
*5B10.25 [[Puffed wheat on electrostatic generator]]<br />
*5B10.25 [[Stacked aluminium plates on electrostatic generator]]<br />
*5B10.31 [[Ping pong ball bouncing between parallel charged plates]]<br />
*5B10.35 [[Balloon bouncing between two charges]]<br />
<!--*5B10.40 [[Grass seeds in electric field]]--><br />
===20. Gauss' law===<br />
===30. Electrostatic potential===<br />
*5B30.00 [[Electrostatic Roller Ball]]<br />
*5B30.50 [[Electrostatic pinwheel/Ionic drive]]<br />
<!--*5B30.95 [[Human discharge chain]]--><br />
<br />
==5C - Capacitance==<br />
===10. Capacitors===<br />
*5C10.00 [[Capacitors cut in half]]<br />
*5C10.10 [[Various capacitors sample]]<br />
*5C10.20 [[Parallel plate capacitor]]<br />
*5C10.35 [[Rotary capacitor]]<br />
===20. Dielectric===<br />
*5C20.10 [[parallel plate capacitor with dielectric]]<br />
===30. Energy stored in a capacitor===<br />
*5C30.10 [[Leyden jar]]<br />
*5C30.20 [[Short a capacitor]]<br />
*5C30.30 [[Capacitor charging and discharging through a light bulb]]<br />
<br />
==5D - Resistance==<br />
===10. Resistance characteristics===<br />
*5D10.10 [[Measuring resistance]]<br />
===20. Resistivity and temperature===<br />
*5D20.10 [[Cooled wire]]<br />
*5D20.20 [[Heat in shorted battery]]<br />
===30. Conduction in solutions===<br />
*5D30.10 [[Conduction through salt water]]<br />
<!--===40. Conduction in gases===--><br />
<br />
==5E - Electromotive force and current==<br />
<!--===20. Electrolysis===--><br />
<!--===30. Plating===--><br />
===40. Cells and batteries===<br />
* 5E40.25 [[Lemon battery]]<br />
<!--===50. Thermoelectricity===--><br />
===60. Piezoelectricity===<br />
*5E60.20 [[Piezoelectric sparker]]<br />
<br />
==5F - DC circuits==<br />
<!--===10. Ohm's law===--><br />
<!--===15. Power and energy===--><br />
<!--===20. Circuit analysis===--><br />
<!--===30. RC circuits===--><br />
===40. Instruments===<br />
*5F40.10 [[Galvanometer]]<br />
<br />
<!--==5G - Magnetic materials==--><br />
<!--===10. Magnets===--><br />
<!--===20. Magnet domains & magnetization===--><br />
<!--===30. Paramagnetism and diamagnetism===--><br />
<!--===40. Hysteresis===--><br />
<!--===45. Magnetostriction and magnetoresistance===--><br />
<!--===50. Temperature and magnetism===--><br />
<br />
==5H - Magnetic fields and forces==<br />
===10. Magnetic fields===<br />
*5H10.20 [[Oersted's effect]]<br />
<!--===15. Fields and currents===--><br />
===20. Forces on magnets===<br />
*5H20.20 [[Levitating magnet]]<br />
===25. Magnet/electromagnet interactions===<br />
*5H25.11 [[Large coil and paper clip]]<br />
===30. Force on moving charges===<br />
<!--===40. Force on current in wires===--><br />
<!--===50. Torques on coils===--><br />
<br />
==5J - Inductance==<br />
<!--===10. Self inductance===--><br />
===20. LR circuits===<br />
*5J20.21 [[Lamps in series and parallel with a large electromagnet]]<br />
===30. RLC circuits - DC===<br />
<br />
==5K - Electromagnetic induction==<br />
===10. Induced currents and forces===<br />
*5K10.20 [[Induction coil with galvanometer]]<br />
===20. Eddy currents===<br />
*5K20.10 [[Eddy current in a pendulum]]<br />
*5K20.20 [[Magnet falling in a metallic tube]]<br />
*5K20.40 [[Magnets over a spinning aluminium disk]]<br />
*5K20.55 [[Magnetic coil over a spinning aluminium disk]]<br />
===30. Transformers===<br />
*5K30.20 [[Small Transformer]]<br />
*5K30.30 [[Transformer with light bulb]]<br />
*5K30.34 [[Autotransformer]]<br />
*5K30.52 [[Exploratory coil on an oscilloscope]]<br />
===40. Motors and generators===<br />
*5K40.00 [[Various electric motors]]<br />
*5K40.10 [[Simple DC motor]]<br />
*5K40.18 [[Large simple motor]]<br />
*5K40.80 [[Hand crank generator with light]]<br />
<br />
<!--==5L - AC circuits==--><br />
<!--===10. Impedance===--><br />
<!--===20. LCR circuits - AC===--><br />
<!--*5L30.10 [[RLC circuit]]--><br />
<!--*5L30.10 [[Resonance]]--><br />
<!--===30. Filters and rectifiers===--><br />
<!--*5L30.36 [[RL and RC circuit]]--><br />
<br />
<!--==5M - Semiconductors and tubes==--><br />
<!--===10. Semiconductors===--><br />
<!--*5M10.50 [[Diode]]--><br />
<!--*5M10.55 [[Light emitting diode]] --><br />
<!--===20. Tubes===--><br />
<!--*5M20.10 [[Discharge tube]]--><br />
<!--*5M20.2? [[Electron in a gas tube]]--><br />
<br />
==5N - Electromagnetic radiation==<br />
===10. Transmission lines and antennas===<br />
*5N10.57 [[Microwave standing wave]]<br />
<!--===20. Tesla coil===--><br />
===30. Electromagnetic spectrum===<br />
* 5N30.10 [[Optical prism]]</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Thermodynamics&diff=1121
Thermodynamics
2018-06-11T14:32:36Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
==4A - Thermal properties of matter==<br />
<!--===10. Thermometry===--><br />
<!--===20. Liquid expansion===--><br />
===30. Solid expansion===<br />
*4A30.10 [[Bimetal strip]]<br />
*4A30.20 [[Ball and ring]]<br />
<!--===40. Properties of materials at low temperature===--><br />
<!--===50. Liquid helium===--><br />
<br />
==4B - Heat and the first law==<br />
===10. Heat capacity and specific heat===<br />
*4B10.30 [[Melting wax]]<br />
<!--===20. Convection===--><br />
<!--===30. Conduction===--><br />
<!--===40. Radiation===--><br />
===50. Heat transfer applications===<br />
*4B50.20 [[Boiling water in a paper cup]]<br />
===60. Mechanical equivalent of heat===<br />
*4B60.50 [[Drill and piece of metal]]<br />
*4B60.70 [[Cork popper/Steam gun]]<br />
===70. Adiabatic processes===<br />
*4B70.10 [[Fire syringe]]<br />
<br />
==4C - Change of state==<br />
===10. PVT surfaces===<br />
*4C10.10 [[PVT surface 3D models]]<br />
===20. Phase changes: liquid-solid===<br />
*4C20.30 [[Regelation]]<br />
<!--===30. Phase changes: liquid-gas===--><br />
===31. Cooling by evaporation===<br />
*4C31.30 [[Drinking bird]]<br />
<!--===32. Dew point and humidity===--><br />
<!--===33. Vapor pressure===--><br />
<!--===40. Sublimation===--><br />
<!--===45. Phase changes: solid - solid===--><br />
<!--===50. Critical point===--><br />
<br />
<!--==4D - Kinetic theory==--><br />
==4E - Gas law==<br />
===10. Constant pressure===<br />
*4E10.20 [[Balloon in liquid nitrogen]]<br />
===20. Constant temperature===<br />
*4E20.40 [[Balloon in a vacuum]]<br />
<!--===30. Constant volume===--><br />
<br />
==4F - Entropy and the second law==<br />
===10. Entropy===<br />
*4F10.10 [[Unmixing]]<br />
===30. Heat cycles===<br />
*4F30.10 [[Stirling engine]]<br />
*4F30.20 [[Steam engine]]<br />
*4F30.70 [[Rubber band engine]]</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Equipment&diff=1120
Equipment
2018-06-11T13:35:53Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
==9A - Support systems / facility==<br />
===10. Blackboard Tools===<br />
===20. Audio===<br />
===30. Slide Projectors===<br />
===34. Film Projectors===<br />
===36. Overhead Projectors===<br />
===38. Video & Computer Projection===<br />
===40. Photography===<br />
===50. X-Y, Chart Recorders===<br />
===60. Buildings===<br />
===65. Museums===<br />
===70. Resource Books===<br />
===73. Unclassified Demonstrations===<br />
===75. Philosophy===<br />
===80. Films===<br />
===85. Computer Programs===<br />
<br />
==9B - Electronic==<br />
===10. Timers===<br />
===15. Position and Velocity Detectors===<br />
===17. Sources of Sound===<br />
===18. Sound Detectors===<br />
===20. Circuits/Components/Instruments===<br />
===30. Function Generators===<br />
===37. Oscilloscopes===<br />
===40. Advanced Instruments===<br />
===50. Power Supplies===<br />
===60. Light Sources===<br />
===61. Light Paths Made Visible===<br />
===62. Lasers===<br />
===65. Microwave Apparatus===<br />
===90. Computer Interface===<br />
<br />
==9C - Mechanical==<br />
===10. Motors===<br />
===20. Pumps===<br />
===25. Vacuum===<br />
===30. Air Support===<br />
===35. Ripple Tank===<br />
===40. Other===</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Astronomy&diff=1119
Astronomy
2018-06-11T13:34:36Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
==8A - Planetery astronomy==<br />
===05. Historical astronomy===<br />
===10. Solar system mechanics===<br />
===20. Earth - moon mechanics===<br />
===30. Views from earth===<br />
===35. Views from earth - 2===<br />
===40. Planetary properties: globes, hemispheres, & maps===<br />
===50. Planetary properties - 2: The planets===<br />
===60. Planetary properties - 3: Planetoids, minor objects===<br />
===70. Planetary properties - 4: Planetary characteristics===<br />
===80. Planetary properties - 5: Comets and the search For life===<br />
<br />
==8B - Stellar astronomy==<br />
===10. The sun===<br />
===20. Stellar spectra===<br />
===30. Stellar evolution===<br />
===40. Black holes===<br />
===50. Stellar miscellaneous===<br />
<br />
==8C - Cosmology==<br />
===10. Models of the universe===<br />
===20. Gravitational effects===<br />
<br />
==8D - Miscellaneous==<br />
===10. Miscellaneous astronomy===<br />
===20. Telescopes===<br />
===30. Astronomical instruments===<br />
<br />
==8E - Astronomy teaching techniques==<br />
===30. Techniques and projects===</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Modern_physics&diff=1118
Modern physics
2018-06-11T13:31:56Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
==7A - Quantum effects==<br />
<!--===10. Photoelectric effect===--><br />
<!--===15. Millikan oil drop===--><br />
<!--===20. Compton effect===--><br />
<!--===50. Wave mechanics===--><br />
<!--===55. Particle/wave duality===--><br />
===60. X-ray and electron diffraction===<br />
7A60.10 [[Electron Diffraction]]<br />
<!--===70. Condensed matter===--><br />
<br />
<!--==7B - Atomic physics==--><br />
<!--===10. Spectra===--><br />
<!--===11. Absorption===--><br />
<!--===13. Resonance radiation===--><br />
<!--===20. Fine splitting===--><br />
<!--===30. Ionization potential===--><br />
<!--===35. Electron properties===--><br />
<!--===50. Atomic models===--><br />
<br />
<!--==7D - Nuclear physics==--><br />
<!--===10. Radioactivity===--><br />
<!--===20. Nuclear reactions===--><br />
<!--===30. Particle detectors===--><br />
<!--===40. Nuclear magnetic resonance (NMR)===--><br />
<!--===50. Models of the nucleus===--><br />
<br />
<!--==7E - Elementary particles==--><br />
<!--===10. Miscellaneous===--><br />
<br />
<!--==7F - Relativity==--><br />
<!--===10. Special relativity===--><br />
<!--===20. General relativity===--></div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Optics&diff=1117
Optics
2018-06-08T14:30:54Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
==6A - Geometrical optics==<br />
<!--===01. Speed of light===--><br />
<!--===02. Straight line propagation===--><br />
===10. Reflection from flat surfaces===<br />
* 6A10.30 [[Corner cube reflector]]<br />
===20. Reflection from curved surfaces===<br />
* 6A20.35 [[Optic Mirage]]<br />
* 6A20.37 [[Hemispherical mirror]]<br />
<!--===40. Refractive index===--><br />
<!--===42. Refraction at flat surfaces===--><br />
===44. Total internal reflection===<br />
* 6A44.40 [[Light pipe]]<br />
===46. Rainbow===<br />
* 6A46.10 [[Optical prism]]<br />
===60. Thin lens===<br />
* 6A60.31 [[Projected arrow with a lens]]<br />
<!--===61. Pinhole===--><br />
<!--===65. Thick lens===--><br />
<!--===70. Optical instruments===--><br />
<br />
<!--==6B - Photometry==--><br />
<!--===10. Luminosity===--><br />
<!--===30. Radation pressure===--><br />
<!--===40. Blackbodies===--><br />
<br />
==6C - Diffraction==<br />
===10. Diffraction through one slit===<br />
* 6C10.10 [[Single slit and laser]]<br />
===20. Diffraction around objects===<br />
<br />
==6D - Interference==<br />
===10. Interference from two sources===<br />
* 6D10.10 [[Double slit and laser]]<br />
<!--===15. Interference of polarized light===--><br />
===20. Gratings===<br />
* 6D20.20 [[Dispersion of light using grating]]<br />
===30. Thin films===<br />
* 6D30.20 [[Soap film interference]]<br />
===40. Interferometers===<br />
* 6D40.10 [[Michelson interferometer]]<br />
<br />
==6F - Color==<br />
===10. Synthesis and analysis of color===<br />
*6F10.25 [[Newton color disk]]<br />
<!--===30. Dispersion===--><br />
===40. Scattering===<br />
*6F40.10 [[Artificial Sunset]]<br />
<br />
==6H - Polarization==<br />
===10. Dichroic polarization===<br />
6H10.10 [[Three polarizing sheets]]<br />
===20. Polarization by reflection===<br />
<!--===30. Circular polarization===--><br />
<!--===35. Birefringence===--><br />
<!--===50. Polarization by scattering===--><br />
<br />
<!--==6J - The eye==--><br />
<!--==6Q - Modern optics==--></div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Electricity_and_magnetism&diff=1116
Electricity and magnetism
2018-06-08T13:41:31Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
==5A - Electrostatics==<br />
===10. Producing static charge===<br />
*5A10.00 [[Discharging with a flame]]<br />
*5A10.10 [[Triboelectric effect]]<br />
*5A10.20 [[Electrophorus]]<br />
===20. Coulomb's law===<br />
*5A20.25 [[Ping-pong ball electroscope]]<br />
*5A20.30 [[Balloon electroscope]]<br />
<!--===22. Electrostatic meters===--><br />
<!--*5A22.10 [[Braun electroscope]]--><br />
<!--===30. Conductors and insulators===--><br />
<!--*5A30.10 [[Wire versus string]]--><br />
===40. Induced charge===<br />
*5A40.10 [[Charging by induction]]<br />
<!-- *5A40.15 [[Electroscope by induction]] --><br />
*5A40.17 [[Polarizing by induction]]<br />
*5A40.40 [[Deflection of a water stream]]`<br />
*5A40.70 [[Kelvin water dropper]]<br />
===50. Electrostatic machines===<br />
*5A50.10 [[Wimshurst machine]]<br />
*5A50.30 [[Van de Graaff generator]]<br />
<br />
==5B - Electric fields and potentials==<br />
===10. Electric field===<br />
*5B10.15 [[Van de Graaf streamers]]<br />
*5B10.25 [[Puffed wheat on electrostatic generator]]<br />
*5B10.25 [[Stacked aluminium plates on electrostatic generator]]<br />
*5B10.31 [[Ping pong ball bouncing between parallel charged plates]]<br />
*5B10.35 [[Balloon bouncing between two charges]]<br />
<!--*5B10.40 [[Grass seeds in electric field]]--><br />
===20. Gauss' law===<br />
===30. Electrostatic potential===<br />
*5B30.00 [[Electrostatic Roller Ball]]<br />
*5B30.50 [[Electrostatic pinwheel/Ionic drive]]<br />
<!--*5B30.95 [[Human discharge chain]]--><br />
<br />
==5C - Capacitance==<br />
===10. Capacitors===<br />
*5C10.00 [[Capacitors cut in half]]<br />
*5C10.10 [[Various capacitors sample]]<br />
*5C10.20 [[Parallel plate capacitor]]<br />
*5C10.35 [[Rotary capacitor]]<br />
===20. Dielectric===<br />
*5C20.10 [[parallel plate capacitor with dielectric]]<br />
===30. Energy stored in a capacitor===<br />
*5C30.10 [[Leyden jar]]<br />
*5C30.20 [[Short a capacitor]]<br />
*5C30.30 [[Capacitor charging and discharging through a light bulb]]<br />
<br />
==5D - Resistance==<br />
===10. Resistance characteristics===<br />
*5D10.10 [[Measuring resistance]]<br />
===20. Resistivity and temperature===<br />
*5D20.10 [[Cooled wire]]<br />
*5D20.20 [[Heat in shorted battery]]<br />
===30. Conduction in solutions===<br />
*5D30.10 [[Conduction through salt water]]<br />
<!--===40. Conduction in gases===--><br />
<br />
==5E - Electromotive force and current==<br />
<!--===20. Electrolysis===--><br />
<!--===30. Plating===--><br />
===40. Cells and batteries===<br />
* 5E40.25 [[Lemon battery]]<br />
<!--===50. Thermoelectricity===--><br />
===60. Piezoelectricity===<br />
*5E60.20 [[Piezoelectric sparker]]<br />
<br />
==5F - DC circuits==<br />
<!--===10. Ohm's law===--><br />
<!--===15. Power and energy===--><br />
<!--===20. Circuit analysis===--><br />
<!--===30. RC circuits===--><br />
===40. Instruments===<br />
*5F40.10 [[Galvanometer]]<br />
<br />
<!--==5G - Magnetic materials==--><br />
<!--===10. Magnets===--><br />
<!--===20. Magnet domains & magnetization===--><br />
<!--===30. Paramagnetism and diamagnetism===--><br />
<!--===40. Hysteresis===--><br />
<!--===45. Magnetostriction and magnetoresistance===--><br />
<!--===50. Temperature and magnetism===--><br />
<br />
==5H - Magnetic fields and forces==<br />
===10. Magnetic fields===<br />
*5H10.20 [[Oersted's effect]]<br />
<!--===15. Fields and currents===--><br />
===20. Forces on magnets===<br />
*5H20.20 [[Levitating magnet]]<br />
===25. Magnet/electromagnet interactions===<br />
*5H25.11 [[Large coil and paper clip]]<br />
===30. Force on moving charges===<br />
<!--===40. Force on current in wires===--><br />
<!--===50. Torques on coils===--><br />
<br />
==5J - Inductance==<br />
<!--===10. Self inductance===--><br />
===20. LR circuits===<br />
*5J20.21 [[Lamps in series and parallel with a large electromagnet]]<br />
===30. RLC circuits - DC===<br />
<br />
==5K - Electromagnetic induction==<br />
===10. Induced currents and forces===<br />
*5K10.20 [[Induction coil with galvanometer]]<br />
===20. Eddy currents===<br />
*5K20.10 [[Eddy current in a pendulum]]<br />
*5K20.20 [[Magnet falling in a metallic tube]]<br />
*5K20.40 [[Magnets over a spinning aluminium disk]]<br />
*5K20.55 [[Magnetic coil over a spinning aluminium disk]]<br />
===30. Transformers===<br />
*5K30.20 [[Small Transformer]]<br />
*5K30.30 [[Transformer with light bulb]]<br />
*5K30.34 [[Autotransformer]]<br />
*5K30.52 [[Exploratory coil on an oscilloscope]]<br />
===40. Motors and generators===<br />
*5K40.00 [[Various electric motors]]<br />
*5K40.10 [[Simple DC motor]]<br />
*5K40.18 [[Large simple motor]]<br />
<br />
<!--==5L - AC circuits==--><br />
<!--===10. Impedance===--><br />
<!--===20. LCR circuits - AC===--><br />
<!--*5L30.10 [[RLC circuit]]--><br />
<!--*5L30.10 [[Resonance]]--><br />
<!--===30. Filters and rectifiers===--><br />
<!--*5L30.36 [[RL and RC circuit]]--><br />
<br />
<!--==5M - Semiconductors and tubes==--><br />
<!--===10. Semiconductors===--><br />
<!--*5M10.50 [[Diode]]--><br />
<!--*5M10.55 [[Light emitting diode]] --><br />
<!--===20. Tubes===--><br />
<!--*5M20.10 [[Discharge tube]]--><br />
<!--*5M20.2? [[Electron in a gas tube]]--><br />
<br />
==5N - Electromagnetic radiation==<br />
===10. Transmission lines and antennas===<br />
*5N10.57 [[Microwave standing wave]]<br />
<!--===20. Tesla coil===--><br />
===30. Electromagnetic spectrum===<br />
* 5N30.10 [[Optical prism]]</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Electricity_and_magnetism&diff=1115
Electricity and magnetism
2018-06-08T13:40:55Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
==5A - Electrostatics==<br />
===10. Producing static charge===<br />
*5A10.00 [[Discharging with a flame]]<br />
*5A10.10 [[Triboelectric effect]]<br />
*5A10.20 [[Electrophorus]]<br />
===20. Coulomb's law===<br />
*5A20.25 [[Ping-pong ball electroscope]]<br />
*5A20.30 [[Balloon electroscope]]<br />
<!--===22. Electrostatic meters===--><br />
<!--*5A22.10 [[Braun electroscope]]--><br />
<!--===30. Conductors and insulators===--><br />
<!--*5A30.10 [[Wire versus string]]--><br />
===40. Induced charge===<br />
*5A40.10 [[Charging by induction]]<br />
<!-- *5A40.15 [[Electroscope by induction]] --><br />
*5A40.17 [[Polarizing by induction]]<br />
*5A40.40 [[Deflection of a water stream]]`<br />
*5A40.70 [[Kelvin water dropper]]<br />
===50. Electrostatic machines===<br />
*5A50.10 [[Wimshurst machine]]<br />
*5A50.30 [[Van de Graaff generator]]<br />
<br />
==5B - Electric fields and potentials==<br />
===10. Electric field===<br />
*5B10.15 [[Van de Graaf streamers]]<br />
*5B10.25 [[Puffed wheat on electrostatic generator]]<br />
*5B10.25 [[Stacked aluminium plates on electrostatic generator]]<br />
*5B10.31 [[Ping pong ball bouncing between parallel charged plates]]<br />
*5B10.35 [[Balloon bouncing between two charges]]<br />
<!--*5B10.40 [[Grass seeds in electric field]]--><br />
===20. Gauss' law===<br />
===30. Electrostatic potential===<br />
*5B30.00 [[Electrostatic Roller Ball]]<br />
*5B30.50 [[Electrostatic pinwheel/Ionic drive]]<br />
<!--*5B30.95 [[Human discharge chain]]--><br />
<br />
==5C - Capacitance==<br />
===10. Capacitors===<br />
*5C10.00 [[Capacitors cut in half]]<br />
*5C10.10 [[Various capacitors sample]]<br />
*5C10.20 [[Parallel plate capacitor]]<br />
*5C10.35 [[Rotary capacitor]]<br />
===20. Dielectric===<br />
*5C20.10 [[parallel plate capacitor with dielectric]]<br />
===30. Energy stored in a capacitor===<br />
*5C30.10 [[Leyden jar]]<br />
*5C30.20 [[Short a capacitor]]<br />
*5C30.30 [[Capacitor charging and discharging through a light bulb]]<br />
<br />
==5D - Resistance==<br />
===10. Resistance characteristics===<br />
*5D10.10 [[Measuring resistance]]<br />
===20. Resistivity and temperature===<br />
*5D20.10 [[Cooled wire]]<br />
*5D20.20 [[Heat in shorted battery]]<br />
===30. Conduction in solutions===<br />
*5D30.10 [[Conduction through salt water]]<br />
<!--===40. Conduction in gases===--><br />
<br />
==[[5E - Electromotive force and current]]==<br />
<!--===20. Electrolysis===--><br />
<!--===30. Plating===--><br />
===40. Cells and batteries===<br />
* 5E40.25 [[Lemon battery]]<br />
<!--===50. Thermoelectricity===--><br />
===60. Piezoelectricity===<br />
*5E60.20 [[Piezoelectric sparker]]<br />
<br />
==[[5F - DC circuits]]==<br />
<!--===10. Ohm's law===--><br />
<!--===15. Power and energy===--><br />
<!--===20. Circuit analysis===--><br />
<!--===30. RC circuits===--><br />
===40. Instruments===<br />
*5F40.10 [[Galvanometer]]<br />
<br />
<!--==5G - Magnetic materials==--><br />
<!--===10. Magnets===--><br />
<!--===20. Magnet domains & magnetization===--><br />
<!--===30. Paramagnetism and diamagnetism===--><br />
<!--===40. Hysteresis===--><br />
<!--===45. Magnetostriction and magnetoresistance===--><br />
<!--===50. Temperature and magnetism===--><br />
<br />
==5H - Magnetic fields and forces==<br />
===10. Magnetic fields===<br />
*5H10.20 [[Oersted's effect]]<br />
<!--===15. Fields and currents===--><br />
===20. Forces on magnets===<br />
*5H20.20 [[Levitating magnet]]<br />
===25. Magnet/electromagnet interactions===<br />
*5H25.11 [[Large coil and paper clip]]<br />
===30. Force on moving charges===<br />
<!--===40. Force on current in wires===--><br />
<!--===50. Torques on coils===--><br />
<br />
==5J - Inductance==<br />
<!--===10. Self inductance===--><br />
===20. LR circuits===<br />
*5J20.21 [[Lamps in series and parallel with a large electromagnet]]<br />
===30. RLC circuits - DC===<br />
<br />
==5K - Electromagnetic induction==<br />
===10. Induced currents and forces===<br />
*5K10.20 [[Induction coil with galvanometer]]<br />
===20. Eddy currents===<br />
*5K20.10 [[Eddy current in a pendulum]]<br />
*5K20.20 [[Magnet falling in a metallic tube]]<br />
*5K20.40 [[Magnets over a spinning aluminium disk]]<br />
*5K20.55 [[Magnetic coil over a spinning aluminium disk]]<br />
===30. Transformers===<br />
*5K30.20 [[Small Transformer]]<br />
*5K30.30 [[Transformer with light bulb]]<br />
*5K30.34 [[Autotransformer]]<br />
*5K30.52 [[Exploratory coil on an oscilloscope]]<br />
===40. Motors and generators===<br />
*5K40.00 [[Various electric motors]]<br />
*5K40.10 [[Simple DC motor]]<br />
*5K40.18 [[Large simple motor]]<br />
<br />
<!--==5L - AC circuits==--><br />
<!--===10. Impedance===--><br />
<!--===20. LCR circuits - AC===--><br />
<!--*5L30.10 [[RLC circuit]]--><br />
<!--*5L30.10 [[Resonance]]--><br />
<!--===30. Filters and rectifiers===--><br />
<!--*5L30.36 [[RL and RC circuit]]--><br />
<br />
<!--==5M - Semiconductors and tubes==--><br />
<!--===10. Semiconductors===--><br />
<!--*5M10.50 [[Diode]]--><br />
<!--*5M10.55 [[Light emitting diode]] --><br />
<!--===20. Tubes===--><br />
<!--*5M20.10 [[Discharge tube]]--><br />
<!--*5M20.2? [[Electron in a gas tube]]--><br />
<br />
==5N - Electromagnetic radiation==<br />
===10. Transmission lines and antennas===<br />
*5N10.57 [[Microwave standing wave]]<br />
<!--===20. Tesla coil===--><br />
===30. Electromagnetic spectrum===<br />
* 5N30.10 [[Optical prism]]</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Electricity_and_magnetism&diff=1114
Electricity and magnetism
2018-06-06T18:45:24Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
==5A - Electrostatics==<br />
===10. Producing static charge===<br />
*5A10.00 [[Discharging with a flame]]<br />
*5A10.10 [[Triboelectric effect]]<br />
*5A10.20 [[Electrophorus]]<br />
===20. Coulomb's law===<br />
*5A20.25 [[Ping-pong ball electroscope]]<br />
*5A20.30 [[Balloon electroscope]]<br />
<!--===22. Electrostatic meters===--><br />
<!--*5A22.10 [[Braun electroscope]]--><br />
<!--===30. Conductors and insulators===--><br />
<!--*5A30.10 [[Wire versus string]]--><br />
===40. Induced charge===<br />
*5A40.10 [[Charging by induction]]<br />
<!-- *5A40.15 [[Electroscope by induction]] --><br />
*5A40.17 [[Polarizing by induction]]<br />
*5A40.40 [[Deflection of a water stream]]`<br />
*5A40.70 [[Kelvin water dropper]]<br />
===50. Electrostatic machines===<br />
*5A50.10 [[Wimshurst machine]]<br />
*5A50.30 [[Van de Graaff generator]]<br />
<br />
==[[5B - Electric fields and potentials]]==<br />
==[[5C - Capacitance]]==<br />
==[[5D - Resistance]]==<br />
==[[5E - Electromotive force and current]]==<br />
==[[5F - DC circuits]]==<br />
==[[5G - Magnetic materials]]==<br />
==[[5H - Magnetic fields and forces]]==<br />
==[[5J - Inductance]]==<br />
==[[5K - Electromagnetic induction]]==<br />
==[[5L - AC circuits]]==<br />
==[[5M - Semiconductors and tubes]]==<br />
==[[5N - Electromagnetic radiation]]==</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Thermodynamics&diff=1113
Thermodynamics
2018-06-06T18:04:36Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
==4A - Thermal properties of matter==<br />
<!--===10. Thermometry===--><br />
<!--===20. Liquid expansion===--><br />
===30. Solid expansion===<br />
*4A30.10 [[Bimetal strip]]<br />
*4A30.20 [[Ball and ring]]<br />
<!--===40. Properties of materials at low temperature===--><br />
<!--===50. Liquid helium===--><br />
<br />
==4B - Heat and the first law==<br />
===10. Heat capacity and specific heat===<br />
*4B10.30 [[Melting wax]]<br />
<!--===20. Convection===--><br />
<!--===30. Conduction===--><br />
<!--===40. Radiation===--><br />
===50. Heat transfer applications===<br />
*4B50.20 [[Boiling water in a paper cup]]<br />
===60. Mechanical equivalent of heat===<br />
*4B60.50 [[Drill and piece of metal]]<br />
*4B60.70 [[Cork popper/Steam gun]]<br />
===70. Adiabatic processes===<br />
*4B70.10 [[Fire syringe]]<br />
<br />
==4C - Change of state==<br />
===10. PVT surfaces===<br />
*4C10.10 [[PVT surface 3D models]]<br />
===20. Phase changes: liquid-solid===<br />
*4C20.30 [[Regelation]]<br />
<!--===30. Phase changes: liquid-gas===--><br />
===31. Cooling by evaporation===<br />
*4C31.30 [[Drinking bird]]<br />
<!--===32. Dew point and humidity===--><br />
<!--===33. Vapor pressure===--><br />
<!--===40. Sublimation===--><br />
<!--===45. Phase changes: solid - solid===--><br />
<!--===50. Critical point===--><br />
<br />
<!--==4D - Kinetic theory==--><br />
==[[4E - Gas law]]==<br />
===10. Constant pressure===<br />
*4E10.20 [[Balloon in liquid nitrogen]]<br />
===20. Constant temperature===<br />
*4E20.40 [[Balloon in a vacuum]]<br />
<!--===30. Constant volume===--><br />
<br />
==4F - Entropy and the second law==<br />
===10. Entropy===<br />
*4F10.10 [[Unmixing]]<br />
===30. Heat cycles===<br />
*4F30.10 [[Stirling engine]]<br />
*4F30.20 [[Steam engine]]<br />
*4F30.70 [[Rubber band engine]]</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Oscillations_and_waves&diff=1112
Oscillations and waves
2018-06-06T17:40:37Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
==3A - Oscillations==<br />
===10. Pendula===<br />
*3A10.10 [[Simple pendulum]]<br />
*3A10.30 [[Torsional oscillations of rigid pendulum]]<br />
===15. Physical pendula===<br />
*3A15.20 [[Rigid pendulum]]<br />
===20. Springs & oscillators===<br />
*3A20.10 [[Springs]]<br />
*3A20.10 [[Mass on a spring]]<br />
===40. Simple harmonic motion===<br />
*3A40.10 [[Ping-pong ball on spinning platform]]<br />
===50. Damped oscillators===<br />
*3A50.70 [[Oscillation of liquid in a tube]]<br />
<!--===60. Driven mechanical resonance===--><br />
<!--===70. Coupled oscillations===--><br />
<!--===75. Normal modes===--><br />
===80. Lissajous figures===<br />
*3A80.00 [[Lissajou figures]]<br />
<!--===95. Non-linear systems===--><br />
<br />
==3B - Wave motion==<br />
===10. Transverse pulses and waves===<br />
*3B10.31 [[Transverse wave motion]]<br />
*3B10.75 [[Pendulum waves]]<br />
===20. Longitudinal pulses and waves===<br />
*3B20.10 [[Longitudinal wave motion]]<br />
*3B20.10 [[Long slinky]]<br />
===22. Standing waves===<br />
*3B22.10 [[Standing waves in a string]]<br />
<!--===25. Impedence and dispersion===><br />
<!--===27. Compound waves===--><br />
===30. Wave properties of sound===<br />
*3B30.50 [[Helium inhalation]]<br />
<!--===33. Phase and froup velocity===--><br />
<!--===35. Reflection & refraction (sound)===--><br />
<!--===39. Transfer of energy in waves===--><br />
===40. Doppler effect===<br />
*3B40.18 [[Doppler effect]]<br />
<!--===45. Shock waves===--><br />
===50. Interference and diffraction===<br />
* 3B50.25 [[Ripple tank]]<br />
<!--===55. Interference and diffraction of sound===--><br />
===60. Beats===<br />
*3B60.10 [[Sound beating (xylophone)]]<br />
<!--===70. Coupled resonators===--><br />
<br />
<br />
==3C - Acoustics==<br />
<!--===10. The ear===--><br />
===20. Pitch===<br />
*3C20.25 [[Glass bottle flute]]<br />
<!--===30. Intensity and attenuation===--><br />
<!--===40. Architectural acoustics===--><br />
===50. Wave analysis and synthesis===<br />
*3C50.14 [[Frequency generator with speakers]]<br />
*3C50.14 [[Magnitude of sound standing wave]]<br />
===55. Music perception and the voice===<br />
*3C55.35 [[Sound beating (speakers)]]<br />
<br />
==3D - Instruments==<br />
<!--===20. Resonance in strings===--><br />
<!--===22. Stringed instruments===--><br />
===30. Resonance cavities===<br />
*3D30.10 [[Vertical resonance tube]]<br />
*3D30.35 [[Flexible wind tube]]<br />
===32. Air column instruments===<br />
*3D32.25 [[Slide flute]]<br />
===40. Resonance in plates, bars, solids===<br />
*3D40.50 [[Wine glass]]<br />
<!--===46. Tuning forks===--><br />
<!--===50. Electronic instruments===--><br />
<!--==[[3E - Sound reproduction]]==--></div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Fluid_mechanics&diff=1111
Fluid mechanics
2018-06-06T15:47:31Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
==2A - Surface tension==<br />
===10. Force of surface tension===<br />
*2A10.35 [[Cohesion plates]]<br />
<!--===15. Minimal surface===--><br />
===20. Capillary action===<br />
*2A20.10 [[Capillary tubes]]<br />
<!--===30. Surface tension propulsion===--><br />
<br />
==2B - Statics of fluids==<br />
===20. Static pressure===<br />
*2B20.20 [[Dropping plate]]<br />
*2B20.40 [[Pascal's vases]]<br />
*2B20.50 [[Pascal's fountain]]<br />
*2B20.60 [[Hydraulic press]]<br />
===30. Atmospheric pressure===<br />
*2B30.15 [[Crush the soda can]]<br />
*2B30.25 [[Crush the can with a pump]]<br />
*2B30.30 [[Magdeburg hemispheres]]<br />
*2B30.36 [[Plunger]]<br />
<!--===35. Measuring pressure===--><br />
===40. Density and buoyancy===<br />
*2B40.10 [[Weigh a mass submerged in water]]<br />
*2B40.26 [[Massive weight in a boat]]<br />
*2B40.70 [[Neutral buoyancy balloon]]<br />
<!--===60. Siphons, fountains, pumps===--><br />
<br />
==2C - Dynamics of fluids==<br />
===10. Flow rate===<br />
*2C10.10 [[Torricelli's tank]]<br />
*2C10.26 [[Syringe water velocity]]<br />
===20. Forces in moving fluids===<br />
*2C20.10 [[Venturi tubes]]<br />
*2C20.20 [[Crispy Rice atomizer]]<br />
*2C20.30 [[Floating ball]]<br />
*2C20.35 [[Ball and funnel]]<br />
*2C20.45 [[Attracting sheets]]<br />
<!--===30. Viscosity===--><br />
<!--===40. Turbulent and streamline flow===--><br />
===50. Vorticies===<br />
*2C50.30 [[Water whirlpool]]<br />
<!--===60. Non newtonian fluids===--></div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Mechanics&diff=1110
Mechanics
2018-06-06T15:02:19Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
==1A - Measurements==<br />
<!--===10. Basic units===<br />
*1A10.20 [[Weights]]<br />
*1A10.30 [[Standard meter stick]]<br />
*1A10.40 [[Timer]]--><br />
<!--===20. Error and accuracy===<br />
*1A20.25 [[Dice]]<br />
*1A20.41 [[Large Vernier Caliper]]<br />
*1A20.60 [[Reaction time with meter stick]]--><br />
===30. Coordinate Systems===<br />
*1A30.22 [[Euler's Angle]]<br />
<!--*1A30.40 [[Globe]]--><br />
<!--===40. Vectors===<br />
*1A40.20 [[Large vector arrows]]--><br />
<!--===50. Math Topics===--><br />
<!--===60. Scaling===--><br />
<br />
==1C - Motion in one dimension==<br />
===10. Velocity===<br />
*1C10.25 [[Air track]]<br />
===20. Uniform Acceleration===<br />
*1C20.10 [[Ball and feather in air/vacuum]]<br />
*1C20.11 [[Flat metal and paper sheet]]<br />
===30. Measuring ''g''===<br />
*1C30.35 [[Picket fence and photogate]]<br />
<br />
==1D - Motion in two dimensions==<br />
<!--===10. Displacement in Two Dimensions===--><br />
<!--===15. Velocity, Position and Acceleration===--><br />
===40. Motion of the Center of Mass===<br />
*1D40.00 [[Tennis racket rotation]]<br />
*1D40.00 [[Light tube rotation]]<br />
===50. Central Forces===<br />
*1D50.20 [[Whirligig]]<br />
*1D50.20 [[Lighter mass lifting heavier mass]]<br />
*1D50.40 [[Bucket with water]]<br />
===52. Deformation by Central Forces===<br />
*1D52.10 [[Flattening earth]]<br />
===55. Centrifugal Escape===<br />
*1D55.10 [[Broken ring]]<br />
*1D55.23 [[Salad spinner]]<br />
===60. Projectile Motion===<br />
*1D60.10 [[Cart with vertical ball launcher]]<br />
*1D60.20 [[Falling and shooting ball]]<br />
*1D60.30 [[Monkey and hunter]]<br />
*1D60.55 [[Parabolic trajectory on incline]]<br />
<br />
==1E - Relative Motion==<br />
<!--===10. Moving Reference Frames===--><br />
<!--===20. Rotating Reference Frames===--><br />
===30. Coriolis Effect===<br />
*1E30.28 [[Coriolis effect (painted ball on rotating platform)]]<br />
<br />
==1F - Newton's First Law==<br />
<!--===10. Measuring Inertia===--><br />
===20. Inertia of Rest===<br />
*1F20.30 [[Tablecloth and dishes]]<br />
*1F20.34 [[Cylindrical stack of discs]]<br />
===30. Inertia of Motion===<br />
*1F30.00 [[Rolling basketball]]<br />
<br />
==1G - Newton's Second Law==<br />
<!--===10. Force, Mass and Acceleration===--><br />
===20. Accelerated Reference Frames===<br />
*1G20.40 [[Cup and weights]] <br />
===30. Complex Systems===<br />
<br />
==1H - Newton's Third Law==<br />
===10. Action and Reaction===<br />
*1H10.20 [[Fan-car]]<br />
*1H10.90 [[Glider with magnets]]<br />
===11. Recoil===<br />
*1H11.30 [[Rocket on air track]]<br />
<br />
==1J - Statics and Rigid bodies==<br />
===10. Finding Center of Gravity===<br />
*1J10.09 [[Cardboard box]]<br />
*1J10.10 [[Non-uniform flat object]]<br />
<!--===11. Exceeding Center of Gravity===--><br />
===20. Stable, Unstable, and Neutral Equilibrium===<br />
*1J20.20 [[Center of mass of irregular objects]]<br />
*1J20.30 [[Balanced hammer and arc]]<br />
*1J20.45 [[Tightrope walker]]<br />
*1J20.70 [[Climbing double cone]]<br />
<!--===30. Resolution of Forces===--><br />
<!--===40. Static Torque===--><br />
<br />
==1K - Applications of Newton's Law==<br />
===10. Dynamic Torque===<br />
*1K10.30 [[Walking the spool]]<br />
===20. Friction===<br />
*1K20.30 [[Block pull]](static and dynamic friction)<br />
*1K20.71 [[Heavy bucket and rope friction]]<br />
<!--===30. Pressure===--><br />
<br />
<!--==1L - Gravity==--><br />
==1M - Work and Energy==<br />
<!--===10. Work===--><br />
===20. Simple Machines===<br />
*1M20.10 [[Pulleys]]<br />
*1M20.40 [[Lever level]]<br />
<!--===30. Non-Conservative forces===--><br />
===40. Conservation of Energy===<br />
*1M40.10 [[Bowling ball pendulum]]<br />
*1M40.20 [[Roller coaster]]<br />
*1M40.50 [[Large yo-yo]]<br />
<!--===50. Mechanical Power===--><br />
<br />
==1N - Linear Momentum and Collisions==<br />
<!--===10. Impulse and Thrust===--><br />
<!--===20. Conservation of Linear Momentum===--><br />
<!--===21. Mass and Momentum Transfer===--><br />
===22. Rockets===<br />
*1N22.10 [[Rocket bike]]<br />
*1N22.25 [[Balloons]]<br />
===30. Collisions on One Dimension===<br />
*1N30.10 [[Force propagation through collision]]<br />
*1N30.60 [[Basketball with tennis ball]]<br />
<!--===40. Collisions in Two Dimensions===--><br />
<br />
==1Q - Rotational Dynamics==<br />
===10. Moment of Inertia===<br />
*1Q10.30 [[Inclined plane]]<br />
*1Q10.40 [[Cylinder race down a ramp]]<br />
===20. Rotational Energy===<br />
*1Q20.25 [[Rotational dynamics pulleys]]<br />
*1Q20.40 [[Flywheel car]]<br />
*1Q20.50 [[Hinged stick and ball]]<br />
===30. Transfer of Angular Momentum===<br />
*1Q30.10 [[Rotating platform]]<br />
===40. Conservation of Angular Momentum===<br />
*1Q40.30 [[Bicycle wheel as spinning top]]<br />
===50. Gyros===<br />
*1Q50.21 [[Bicycle wheel as gyroscope]]<br />
*1Q50.30 [[Spinning gyroscopes and tops]]<br />
*1Q50.40 [[Briefcase with flywheel inside]]<br />
*1Q50.50 [[Spinning lariat, rod, and disc]]<br />
<!--===60. Rotational Stability===--><br />
<!--*1Q60.40 [[Stable and unstable axes of rotation]]--><br />
<br />
==1R - Properties of Matter==<br />
===10. Hooke's Law===<br />
*10R10.10 [[Hooke's Law]]<br />
<!--===20. Tensile and Compressible Stress===--><br />
<!--===30. Shear Stress===--><br />
<!--===40. Coefficient of Restitution===--><br />
<!--===50. Crystal Structure===--></div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Mechanics&diff=1109
Mechanics
2018-06-06T14:51:15Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
==1A - Measurements==<br />
<!--===10. Basic units===<br />
*1A10.20 [[Weights]]<br />
*1A10.30 [[Standard meter stick]]<br />
*1A10.40 [[Timer]]--><br />
<!--===20. Error and accuracy===<br />
*1A20.25 [[Dice]]<br />
*1A20.41 [[Large Vernier Caliper]]<br />
*1A20.60 [[Reaction time with meter stick]]--><br />
===30. Coordinate Systems===<br />
*1A30.22 [[Euler's Angle]]<br />
<!--*1A30.40 [[Globe]]--><br />
<!--===40. Vectors===<br />
*1A40.20 [[Large vector arrows]]--><br />
<!--===50. Math Topics===--><br />
<!--===60. Scaling===--><br />
<br />
<br />
==[[1C - Motion in one dimension]]==<br />
<br />
==[[1D - Motion in two dimensions]]==<br />
==[[1E - Relative Motion]]==<br />
==[[1F - Newton's First Law]]==<br />
==[[1G - Newton's Second Law]]==<br />
==[[1H - Newton's Third Law]]==<br />
==[[1J - Statics and Rigid bodies]]==<br />
==[[1K - Applications of Newton's Law]]==<br />
==[[1L - Gravity]]==<br />
==[[1M - Work and Energy]]==<br />
==[[1N - Linear Momentum and Collisions]]==<br />
==[[1Q - Rotational Dynamics]]==<br />
==[[1R - Properties of Matter]]==</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=1A_-_Measurements&diff=1108
1A - Measurements
2018-06-05T17:00:23Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
Back to [[Mechanics]]<br><br />
<!--===10. Basic units===<br />
*1A10.20 [[Weights]]<br />
*1A10.30 [[Standard meter stick]]<br />
*1A10.40 [[Timer]]--><br />
<!--===20. Error and accuracy===<br />
*1A20.25 [[Dice]]<br />
*1A20.41 [[Large Vernier Caliper]]<br />
*1A20.60 [[Reaction time with meter stick]]--><br />
===30. Coordinate Systems===<br />
*1A30.22 [[Euler's Angle]]<br />
<!--*1A30.40 [[Globe]]--><br />
<!--===40. Vectors===<br />
*1A40.20 [[Large vector arrows]]--><br />
<!--===50. Math Topics===--><br />
<!--===60. Scaling===--></div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Optical_prism&diff=1107
Optical prism
2018-05-04T17:54:32Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
Back to [[5N - Electromagnetic radiation]]<br><br />
Back to [[6A - Geometrical optics]]<br><br />
PIRA index: 5N30.10 ; 6A46.10<br />
<br />
==Description==<br />
Shows the effect of the diffraction index depending on light color<br />
<br />
==Equipment==<br />
* Glass prism<br />
* White light (incandescent light is best)<br />
<br />
<br />
==Instructions==<br />
* Shine line trhough prism, maximize internal reflection to maximize rainbow<br />
<br />
<br />
==Keywords==<br />
<br />
<br />
==Images & Movies==<br />
<br />
{{#widget:YouTube|id=uMubyxlYbrI}}</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Electrostatic_pinwheel/Ionic_drive&diff=1106
Electrostatic pinwheel/Ionic drive
2018-05-04T17:27:45Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
Back to [[5B - Electric fields and potentials]]<br><br />
PIRA index: 5B30.50<br />
==Description==<br />
The electric field is stronger around edges. When the field is strong enough charges will escape carrying momentum. Those edges can be aligned in way that the reaction to escaping charges will give the charged object angular momentum. The electrostatic pinwheel demonstrate this effect.<br />
<br />
==Equipment==<br />
* Metalic arrow with a needle tangential to the radius on each end.<br />
* Pinwheel stand<br />
* [[Van de Graaff generator]] <br />
<br />
==Instructions==<br />
*Put the pinwheel stand on the top of ball of the Van de Graaff generator.<br />
*Turn the generator on.<br />
<br />
<br />
==Keywords==<br />
<br />
<br />
==Images & Movies==<br />
<gallery><br />
File:5B30 50 ElectroPinwheel01.JPG<br />
File:5B30 50 ElectroPinwheel02.JPG<br />
</gallery></div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Cup_and_weights&diff=1077
Cup and weights
2018-04-13T20:08:12Z
<p>Ljacques : Created page with "__NOTOC__ Back to 1G - Newton's Second Law<br> PIRA index: 1G20.40 ==Description== Hang 1 kg weights from heavy rubber bands extending from the center over the edge of a ..."</p>
<hr />
<div>__NOTOC__<br />
Back to [[1G - Newton's Second Law]]<br><br />
PIRA index: 1G20.40<br />
<br />
==Description==<br />
Hang 1 kg weights from heavy rubber bands extending from the center over the edge of a styrofoam bucket. Drop the thing<br />
<br />
==Equipment==<br />
*styrofoam cup<br />
*Two identical weights<br />
*Rubber band<br />
<br />
==Instructions==<br />
<br />
==Keywords==<br />
<br />
<br />
==Images & Movies==<br />
<gallery><br />
File:1G20.40 01.JPG|Figure1<br />
</gallery></div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Fichier:1G20.40_01.JPG&diff=1076
Fichier:1G20.40 01.JPG
2018-04-13T20:07:52Z
<p>Ljacques : </p>
<hr />
<div></div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=1G_-_Newton%27s_Second_Law&diff=1075
1G - Newton's Second Law
2018-04-13T20:03:00Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
Back to [[Mechanics]]<br><br />
===10. Force, Mass and Acceleration===<br />
===20. Accelerated Reference Frames===<br />
*1G20.40 [[Cup and weights]] <br />
===30. Complex Systems===</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Salad_spinner&diff=1074
Salad spinner
2018-04-13T19:29:56Z
<p>Ljacques : Created page with "__NOTOC__ Back to 1D - Motion in two dimensions<br> PIRA index: 1D55.23 ==Description== Water is drain from lettuce by rotational motion ==..."</p>
<hr />
<div>__NOTOC__<br />
Back to [[1D_-_Motion_in_two_dimensions|1D - Motion in two dimensions]]<br><br />
PIRA index: 1D55.23<br />
<br />
==Description==<br />
Water is drain from lettuce by rotational motion<br />
<br />
==Equipment==<br />
*Wet salad<br />
*Salad spinner<br />
<br />
==Instructions==<br />
<br />
==Keywords==<br />
<br />
<br />
==Images & Movies==<br />
<gallery><br />
File:1D55.23_1.JPG|Figure1<br />
</gallery></div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Fichier:1D55.23_1.JPG&diff=1073
Fichier:1D55.23 1.JPG
2018-04-13T19:28:38Z
<p>Ljacques : </p>
<hr />
<div></div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=1D_-_Motion_in_two_dimensions&diff=1072
1D - Motion in two dimensions
2018-04-13T19:20:25Z
<p>Ljacques : </p>
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<div>__NOTOC__<br />
Back to [[Mechanics]]<br><br />
===10. Displacement in Two Dimensions===<br />
===15. Velocity, Position and Acceleration===<br />
===40. Motion of the Center of Mass===<br />
*1D40.00 [[Tennis racket rotation]]<br />
*1D40.00 [[Light tube rotation]]<br />
===50. Central Forces===<br />
*1D50.20 [[Whirligig]]<br />
*1D50.20 [[Lighter mass lifting heavier mass]]<br />
*1D50.40 [[Bucket with water]]<br />
===52. Deformation by Central Forces===<br />
*1D52.10 [[Flattening earth]]<br />
===55. Centrifugal Escape===<br />
*1D55.10 [[Broken ring]]<br />
*1D55.23 [[Salad spinner]]<br />
===60. Projectile Motion===<br />
*1D60.10 [[Cart with vertical ball launcher]]<br />
*1D60.20 [[Falling and shooting ball]]<br />
*1D60.30 [[Monkey and hunter]]<br />
*1D60.55 [[Parabolic trajectory on incline]]</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=1Q_-_Rotational_Dynamics&diff=1071
1Q - Rotational Dynamics
2018-04-13T19:07:42Z
<p>Ljacques : </p>
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<div>__NOTOC__<br />
Back to [[Mechanics]]<br><br />
===10. Moment of Inertia===<br />
*1Q10.30 [[Inclined plane]]<br />
*1Q10.40 [[Cylinder race down a ramp]]<br />
===20. Rotational Energy===<br />
*1Q20.25 [[Rotational dynamics pulleys]]<br />
*1Q20.40 [[Flywheel car]]<br />
*1Q20.50 [[Hinged stick and ball]]<br />
===30. Transfer of Angular Momentum===<br />
*1Q30.10 [[Rotating platform]]<br />
===40. Conservation of Angular Momentum===<br />
*1Q40.30 [[Bicycle wheel as spinning top]]<br />
===50. Gyros===<br />
*1Q50.21 [[Bicycle wheel as gyroscope]]<br />
*1Q50.30 [[Spinning gyroscopes and tops]]<br />
*1Q50.40 [[Briefcase with flywheel inside]]<br />
*1Q50.50 [[Spinning lariat, rod, and disc]]<br />
===60. Rotational Stability===<br />
<!--*1Q60.40 [[Stable and unstable axes of rotation]]--></div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=6A_-_Geometrical_optics&diff=1070
6A - Geometrical optics
2018-04-13T17:41:53Z
<p>Ljacques : </p>
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<div>__NOTOC__<br />
===01. Speed of light===<br />
===02. Straight line propagation===<br />
===10. Reflection from flat surfaces===<br />
* 6A10.30 [[Corner cube reflector]]<br />
===20. Reflection from curved surfaces===<br />
* 6A20.35 [[Optic Mirage]]<br />
* 6A20.37 [[Hemispherical mirror]]<br />
===40. Refractive index===<br />
===42. Refraction at flat surfaces===<br />
===44. Total internal reflection===<br />
* 6A44.40 [[Light pipe]]<br />
===46. Rainbow===<br />
* 6A46.10 [[Optical prism]]<br />
===60. Thin lens===<br />
* 6A60.31 [[Projected arrow with a lens]]<br />
===61. Pinhole===<br />
===65. Thick lens===<br />
===70. Optical instruments===</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Measuring_resistance&diff=1069
Measuring resistance
2018-04-13T17:39:58Z
<p>Ljacques : Created page with "__NOTOC__ Back to 5D - Resistance<br> PIRA index: 5D10.10 ==Description== Different resistances connected to a ohmmeter ==Equipment== * Resistances * Ohmmeter ==Instruct..."</p>
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<div>__NOTOC__<br />
Back to [[5D - Resistance]]<br><br />
PIRA index: 5D10.10<br />
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==Description==<br />
Different resistances connected to a ohmmeter<br />
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==Equipment==<br />
* Resistances<br />
* Ohmmeter<br />
==Instructions==<br />
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==Keywords==<br />
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==Images & Movies==<br />
<gallery><br />
File:5D10_10_ResistanceReading01.jpg<br />
</gallery></div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Fichier:5D10_10_ResistanceReading01.jpg&diff=1068
Fichier:5D10 10 ResistanceReading01.jpg
2018-04-13T17:39:20Z
<p>Ljacques : </p>
<hr />
<div></div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=5D_-_Resistance&diff=1067
5D - Resistance
2018-04-13T17:38:29Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
Back to [[Electricity and magnetism]]<br><br />
===10. Resistance characteristics===<br />
*5D10.10 [[Measuring resistance]]<br />
===20. Resistivity and temperature===<br />
*5D20.10 [[Cooled wire]]<br />
*5D20.20 [[Heat in shorted battery]]<br />
===30. Conduction in solutions===<br />
*5D30.10 [[Conduction through salt water]]<br />
===40. Conduction in gases===</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Heat_in_shorted_battery&diff=1066
Heat in shorted battery
2018-04-13T17:29:42Z
<p>Ljacques : Created page with "__NOTOC__ Back to 5D - Resistance<br> PIRA index: 5D20.20 ==Description== A shorted 9V will increase in temperature ==Equipment== * 9V battery * wire * Thermocouple ==I..."</p>
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<div>__NOTOC__<br />
Back to [[5D - Resistance]]<br><br />
PIRA index: 5D20.20<br />
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==Description==<br />
A shorted 9V will increase in temperature<br />
<br />
==Equipment==<br />
* 9V battery<br />
* wire<br />
* Thermocouple<br />
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==Instructions==<br />
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==Keywords==<br />
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==Images & Movies==<br />
{{#widget:YouTube|id=SARXHiSu5jY}}</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=5D_-_Resistance&diff=1065
5D - Resistance
2018-04-13T17:27:59Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
Back to [[Electricity and magnetism]]<br><br />
===10. Resistance characteristics===<br />
===20. Resistivity and temperature===<br />
*5D20.10 [[Cooled wire]]<br />
*5D20.20 [[Heat in shorted battery]]<br />
===30. Conduction in solutions===<br />
*5D30.10 [[Conduction through salt water]]<br />
===40. Conduction in gases===</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=Lemon_battery&diff=1064
Lemon battery
2018-04-13T17:19:18Z
<p>Ljacques : Created page with "__NOTOC__ Back to 5E - Electromotive force and current<br> PIRA index: 5E40.25 ==Description== Zinc and copper strips are hooked to a galvanometer and stuck into fruits a..."</p>
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<div>__NOTOC__<br />
Back to [[5E - Electromotive force and current]]<br><br />
PIRA index: 5E40.25<br />
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==Description==<br />
Zinc and copper strips are hooked to a galvanometer and stuck into fruits and vegetables.<br />
<br />
==Equipment==<br />
* Lemon<br />
* Zin and copper strips<br />
* Voltmeter<br />
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==Instructions==<br />
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==Keywords==<br />
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==Images & Movies==<br />
{{#widget:YouTube|id=UNI-mTLsk3I}}</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=5E_-_Electromotive_force_and_current&diff=1063
5E - Electromotive force and current
2018-04-13T17:18:13Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
Back to [[Electricity and magnetism]]<br><br />
===20. Electrolysis===<br />
===30. Plating===<br />
===40. Cells and batteries===<br />
* 5E40.25 [[Lemon battery]]<br />
===50. Thermoelectricity===<br />
===60. Piezoelectricity===<br />
*5E60.20 [[Piezoelectric sparker]]</div>
Ljacques
https://demosdev.physique.uottawa.ca/w/index.php?title=5E_-_Electromotive_force_and_current&diff=1062
5E - Electromotive force and current
2018-04-13T17:17:53Z
<p>Ljacques : </p>
<hr />
<div>__NOTOC__<br />
Back to [[Electricity and magnetism]]<br><br />
===20. Electrolysis===<br />
===30. Plating===<br />
===40. Cells and batteries===<br />
* 5D40.25 [[Lemon battery]]<br />
===50. Thermoelectricity===<br />
===60. Piezoelectricity===<br />
*5E60.20 [[Piezoelectric sparker]]</div>
Ljacques