| October 1 |
|
| October 2 |
- 2.1 Kinematics (continued)
- Notes
- Investigating the Fall of a Coffee Filter (Design)
|
| October 5 |
- Deriving "suvat" equations for uniform acceleration
- Notes
|
| October 6 |
|
| October 7 |
- Finish Popper Physics (using the "suvat" equations)
|
| October 8 |
|
| October 9 |
- Velocity-time graphs (worksheet)
- You need lots of practice: Calculator Pad
- TO DO: see 2.1 Kinematics (outline)
|
| October 13 |
- Interactive Lecture Demos
- Changing Motion sheets
- Notes
|
| October 14 |
|
| October 15 |
|
| October 16 |
- Interpretation of Kinematics graphs (continued)
- Relative Motion & Frames of Reference
- Car in Snow Storm (from Penn State Animations for Physics & Astronomy)
- Relative Motion
- Compare Relative Motion in Different Frames (simulation)
- Graphs of Motion Review Booklet
- Notes
- Projectile Motion
- Projectile Motion (time to fall)
- Video Analysis of Projectile Motion (Ball Toss ~ Physics Tool Kit)
- Video Analysis of Projectile Motion (Bird Toss in moving chair ~ Logger Pro)
- Notes
|
| October 19 & 20 |
- More Projectile Motion
- Notes
|
| October 21 |
- PRESCRIBED PRACTICAL ~ Measuring the acceleration due to gravity by timing a freefalling object (write up as DCP/CE)
- Try the following simulation: Free Fall Model
|
| October 22 |
- QUIZ (2.1 Kinematics)
- Projectile Practice from McGraw-Hill (see announcement in Google Classroom)
|
| October 26 |
|
| October 27 |
|
| October 29 |
|
| October 30 |
|
