Handouts/Overheads
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Worked
Examples
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Action Figures
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Links
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Physics Disiplines
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Ch 4 - #17 |
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Motion:
Position & Velocity [2.1]
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Active
Online Physics |
The Physics Game - Ground Rules
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Applying Newton's
Laws
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Motion:
Velocity & Acceleration [2.9]
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Physics
2000
(Tutor) |
Vector Addition |
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Gravity of the Earth
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Projectile
Motion [4.7] |
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Web
Elements |
3 Main Types of Motion |
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Atwoods Machine
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Forces
Acting in a Pulley [5.14] |
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MathWorld |
Kinematic Equations of Linear Motion |
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Force on an Elevator
Cable
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Friction
Forces & Motion [5.16] |
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ScienceWorld
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Projectile Motion |
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Complex Force Problem |
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Work Done
Against Gravity [7.4]
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Unit Conversions
Table |
Newton's Laws in Action |
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Complex Friction
Problem |
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KE &
Graviational PE [8.3]
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Feynman
Lectures on Physics
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Strategy for Solving Force Problems |
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Work Done on a Box |
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KE &
Elastic PE [8.4]
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Jobs
In Physics
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Friction Forces |
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Swinging Pendulum Analysis |
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PE for
Simple Harmonic Motion [8.16]
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Kinematic
Equations
of
Rotational
Motion |
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Particle/System Approach |
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1
Dim. Inelastic Collision [9.8]
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Football Player/Figure
Skater-(Force/Work) |
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Motion - Banked Curves (no friction) |
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1
Dim. Elastic Collision [9.9]
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Energy
Characteristics |
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Motion - Banked Curves (friction) |
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2
Dim. Elastic Collision [9.13]
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Gravitational PE Graph |
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I for a Uniform Rigid Rod
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Motion
and
the
Center of Mass [9.16]
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Simple Harmonic Motion PE Graph |
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I
for a Uniform Solid Cylinder |
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CM
Between
2
Massive Objects [9.17]
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Graphical Conservation of Momentum |
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Linear
&
Angular
Kinetic Energy [10.30]
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2
Spring System
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Collision Analysis (1 Dimension)
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Relating
Angular
&
Linear Models |
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Conservation
of
Energy Investigation
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