| Physics
1410 General Physics |
| Physics, Cutnell/Johnson, 3rd edition |
| Chapter 1: Intro & Math Concepts | |||
| 1.X
1.2 1.5 |
1A60.10
1A10.10 1A30.10 |
Scaling
Basic Units Coordinate Systems |
"Powers of
Ten" Video
Basic Unit Sets XYZ Axes (Vector Rods) |
| Chapter 2: Kinematics in 1-Dim | |||
| 2.X
2.6 |
1C10.20
1C20.10 |
Velocity
Uniform Acceleration |
PASCO Dynamics
Cart - Sc. Wksp Motion Study
Penny and Feather |
| Chapter 3: Kinematics in 2-Dim | |||
| 3.3
3.3 3.3 |
1D60.30
1D60.20 1D60.10 |
Projectile
Motion
Projectile Motion Projectile Motion |
Shoot the Monkey
Simultaneous Fall Howitzer and Tunnel |
| Chapter 4: Forces & Newton's Laws of Motion | |||
| 4.2
4.2 4.5 4.9 4.9 4.9 4.11 |
1F20.30
1F30.10 1H10.30 1K20.30 1K20.15 1K20.20 1J40.75 |
Inertia of
Rest
Inertia of Motion Action and Reaction Friction Friction Friction Static Torque |
Tablecloth
Pull
Persistence of Motion Tug of War Static vs. Sliding Friction Weight Dependence of Friction Area Dependence of Friction Arm Model (Blackboard Mechanics) |
| Chapter 5: Dynamics of Uniform Circular Motion | |||
| 5.X
5.1 5.3 5.3 5.7 |
1D52.10
1D50.10 1D50.40 1D50.50 1M40.20 |
Deformation
by Central Forces
Central Forces Central Forces Central Forces Conservation of Energy |
Flattening
Earth
Ball on a String Pail of Water Welch Centripetal Force Loop the Loop |
| Chapter 6: Work and Energy | |||
| 6.2
6.3 6.5 6.5 |
1M20.30
3A20.10 1M40.15 1M40.10 |
Simple Machines
Spring & Oscillators Conservation of Energy Conservation of Energy |
Inclined Plane
Mass on a Spring Stopped Pendulum Nose Basher |
| Chapter 7: Impulse & Momentum | |||
| 7.2
7.2 7.3 7.3 7.3 7.4 7.5 |
1N20.22
1N30.33 1N30.60 1N30.05* 1N30.33 1N40.XX 1N22.20 |
Cons. of Linear
Momentum
Collisions in 1-Dim Collisions in One-Dim Collisions in 1-Dim Collisions in 1-Dim Collisions in 2-Dim Rockets |
Spring Apart
Dynamics Carts
Equal & Unequal mass Air Track Collisions Double Ball Drop Billiard Ball; Bowling Ball & Ping Pong Ball Equal & Unequal mass Air Track Collisions Air Table Water Rocket |
| Chapter 9: Rotational Dynamics | |||
| 9.1
9.2 9.3 9.3 9.4 9.5 9.6 9.6 |
1J40.16
1J40.75 1J10.10 1J11.12 1J40.XX 1Q10.30 1Q40.30 1Q40.10 |
Static Torque
Static Torque Finding Center of Gravity Exceeding Center of Gravity Static Torque Moment of Inertia Cons. of Ang. Momentum Cons. of Ang. Momentum |
Different Length
Wrenches
Arm Model (Blackboard Mechanics) Map of State Irregular Object Center of Mass Peanut Torque Ring, Disk & Sphere Rotating Stool & Bicycle Rotating Stool & Weights |
| Chapter 10: Elasticity & Simple Harmonic Motion | |||
| 10.3
10.6 10.6 10.8 10.8 10.8 |
3A20.10
3A10.10 3A40.05* 3A70.20 3A70.30 3A60.10 |
Springs &
Oscillators
Pendula Simple Harmonic Motion Coupled Oscillations Coupled Oscillations Driven Mechanical Resonance |
Mass on a Spring
Simple Pendulum Science Workshop: Simple Harmonic Motion Coupled Pendula String Coupled Pendula Film: "Tacoma Narrows Bridge" |
| Chapter 11: Fluids | |||
| 11.1
11.2 11.2 11.2 11.3 11.4 11.5 11.6 |
1A10.70
1K30.15 2B30.25 2B30.30 2B20.40 4A30.20 2B20.60 2B40.10 |
Basic Units
Pressure Atmospheric Pressure Atmospheric Pressure Static Pressure Solid Expansion Static Pressure Density & Buoyancy |
Density Rods
Seat of Nails Crush the Can: Vacuum Pump Magdeburg Hemispheres Pascal's Vases Ball & Ring Hydraulic Press Weigh Submerged Block |
| Chapter 12: Temperature & Heat | |||
| 12.4
12.7 12.8 |
4A30.10
4B50.25 4C30.35 |
Solid Expansion
Heat Transfer Applications Phase Changes: Liquid-Gas |
Bimetallic
Strip
Water Balloon & Matches Liquid Nitrogen in a Balloon |
| Chapter 13: The Transfer of Heat | |||
| 13.1
13.2 13.3 13.3 |
4B20.10
4B30.12 4B40.XX* 4B40.10 |
Convection
Conduction Radiation Radiation |
Convection
Tube
Heat Race to Melt Wax Heated Spoon Radiation Using Parabolic Mirrors |
| Chapter 14: Ideal Gas Law & Kinetic Theory | |||
| 14.2
14.2 14.2 |
4E10.20
4E10.30* 4E20.15 |
Constant Pressure
Constant Pressure Constant Temperature |
Balloons in
Liquid Nitrogen
Crush the Can: Hot Water Cooling Syringe & Pressure Gauge |
| Chapter 16: Waves and Sound | |||
| 16.X
16.1 16.1 16.1 16.1 16.1 16.5 16.6 16.8 |
3B50.XX
3B10.10 3B10.20 3B10.50 3B40.25 3B40.35 3B30.30 3B30.50 3C30.10 |
Interference
& Diffraction
Transverse Pulses & Waves Transverse/ Longitudinal Pulses & Waves Transverse/ Longitudinal Pulses & Waves Doppler Effect Doppler Effect Wave Properties of Sound Wave properties of Sound Intensity & Attenuation |
Ripple Tank
Pulse on a Rope Slinky on a Table Vertical Rods Wave Model Doppler Reed Doppler Football Bell in a Vacuum Duck Talk dB Meter |
| Chapter 17: The Principle of Linear Superposition & Interference Phenomena | |||
| 17.4
17.5 17.5 17.5 17.5 |
3B60.10
3B10.60 3B22.80 3D40.50 3D40.30 |
Beats
Transverse Pulses & Waves Standing Waves Resonance in Plates, Bars, Soli Resonance in Plates, Bars, Soli |
Beat Forks
Wave Generator Standing/ Traveling Wave Model Musical Goblet Chladni Plates |
