course_planning:todo [Projects & Practices in Physics]

course_planning:todo

This is an old revision of the document!

~~Start to do list~~
~~Italicize definitions~~
Make sure students know to ignore the first couple of lines of programming in python files
Momentum Notes
- ~~Link when say vectors back to notes on vectors~~
- ~~Link to page with examples of momentum for slow moving and fast moving objects solved~~
The Momentum Principle Notes
- ~~System and surroundings expanded on with diagram that fits into narrative and fan cart video~~
- ~~Record new fan cart video~~
- ~~Link to impulse example which is connected to the real world~~
Constant Force Motion
- ~~Link back to vectors, net force and momentum principle when mentioned in the body of the text~~

Write Examples
Write Notes
- ~~Acceleration & The Change in Momentum~~
  - ~~Finish the bit to motivate why acceleration?~~
  - Does this need an example?
- ~~Non-constant Force: Springs~~
- ~~Non-constant Force: Gravitation~~
~~Determine where examples are needed for current note set~~
~~Determine where lecture videos are needed for current note set~~
~~Develop tutor notes for Project 2~~
~~In momentum principle notes link forward to diagram in non constant force spring notes about the importance of time periods~~

We need to start developing assessments (exams)
~~Add clicker questions/notes for forces~~
We need 4 new videos
- 1 pre lecture video - define momentum and discuss momentum principle (Put in graph bit)
- 1 pre lecture video - talk about the concept of gravitational force and how it relates to projectile motion - 3dimensions
- 1 pre lecture video - constant force motion (Put in graph bit)
- 1 pre lecture video - discuss difference between systems undergoing non constant and constant forces
- 1 pre lecture video - break down newtonian gravitation especially its reciprocal nature.
- 1 example video - applying the momentum principle
- 1 example video - demonstrating the iterative prediction of motion

Fan Cart Videos to keep:
- 1 - const v (sdjsaxLfevQ)
- 2 - const F (MAa7sYKa5GA)
- 8 - F opp v to start (3Bi0uvqBL08)
- 12 - const v; with accelerometer (LxxwPZ5Ocis)
- 14 - const F; with accelerometer (HSZV2vBALtY)
- 19 - F pop v to start; with accelerometer (-b03kUELJQc)

For which problems, should we work the examples? Or should we generate new worked examples? Here's a sample. The audio is really low for some reason (and it's only 360p), but it uses the iPad, so it's quick. I can do more testing of the setup if we need to.

Here's a better version, which I exported in a different way. I can record and export them after a higher res, so that YouTube will recognize them as 720p. The audio still sucks, but I'm not sure why.

Screencast for modeling fan cart VPython
Edits to VPython code (scaling, etc.)
- Tutor notes for VPython Project 2 (Draw the motion maps/Compare to yesterday; does mass matter? - Test with code)
Edits to Project 2C
Graphs for positon and force (spring system)

Graphs for Project 3

Lecture Videos Uploaded

Lecture 3 - Momentum and Momentum Principle (mJlM82R35Zg)
Lecture 4 - force versus Time (RXJ0XlcPBRg)
Lecture 5 - constant force motion (FK5vyrOamhk)
Lecture 6 - local gravitational force (0O5phTxadJc)
Lecture 7 - predicting motion iteratively (DjOttBEMX74)
Lecture 8 - Newtonian Gravitation (Pju9B5fyUEU)

Modeling

Examples

course_planning/todo.1410852063.txt.gz
Last modified: 2014/09/16 07:21
by pwirving