2023 Princeton Short Workshop

Princeton Short Workshop Agenda - Work In Progress

2 day template - 6-8 hours? 

Including particle physics?

Is this more like a CC0 or a CC1? Inbetween?

Do we need an intro to particle physics? 

Muon mass notebook?

Objectives

Participating teachers will:

• Apply physics principles to reduce or explain the observations in data investigations.
• Examine simulated and experimental data. Identify patterns within the data and consider the causes of those patterns.
• Create, organize and interpret data plots; make claims based on evidence and provide explanations; identify data limitations.
• Develop a plan for taking students from their current level of data use to subsequent levels using activities and/or ideas from the workshop.

Day 1

9:00 Pre-Workshop

• Welcome & introductions
• Registration and create/login to Google account

9:30 Working together

• Norms, APS STEP UP poster & Fermilab norms poster
• Video: Pair programming how-to (YouTube) (Amara w/Sp subtitles)
• Video: What Most Schools Don’t Teach
• A look at the Data Activities Portfolio 

10:15 Coding activities

• Introduction to Jupyter 
  • Skills: run, edit, & save a notebook
• Probability
  • Task: Simulate flipping a coin and make a histogram of the number of heads for each trial.
  • Skills: generate random numbers, create and format a histogram

11:15 All hands meeting

• Share observations, challenges
• How do you think your students would handle these tasks?

12:00 Break

• Lunch
• Create/update your Quarknet.org account

13:30 Muon Mass activity

• Muon mass
  • Task: measure the invariant mass of a muon
  • Skills: calculate invariant mass given its 4-vector (energy and x/y/z-momentum), make a mass plot

14:30 Try another coding activity 

• Position graphs
  • Task: analyze Position graphs
  • Skills: modify a loop, define a function, format a plot
• Velocity graphs
  • Task: Analyze Velocity graphs
  • Skills: modify a loop, define a function, format a plot
• Projectile in Air
  • Task: Model the motion of a projectile in air
  • Skills: modify a loop, define a function, format a plot
• Quakes
  • Task: Identify patterns in global seismic activity
  • Skills: read in a large data set from the web, visualize complex data
• Global Temperature
  • Task: Describe the differences between land and water on temperature
  • Skills: read in a large data set from the web, visualize complex data
• Tides
  • Task: Identify patterns in tidal height over time
  • Skills: read in a large data set from the web, visualize complex data, manipulate time series data

15:30 All hands meeting

• Share observations, challenges
• How do you think your students would handle these tasks?

Day 2

9:00 Welcome back

• Recap from yesterday
• What stood out? Any new thoughts?

9:30 Change from student hat → teacher hat!

• NSTA Position Statements are great. Adam mentioned the one on professional development.
• Where might these (or your own) coding activities fit into your course?
• Develop a coding activity and integrate it into your course plan.
  • See Adam’s CODINGinK12.org site and the UCI Machine Learning repository for data sets
• Create an implementation plan.
  • The format should be whatever is useful to you. How do you sketch out your lessons? Do you use a form from your school or district?
  • You can use this as a guide for your implementation plan.

12:00 Break

• Lunch
• Get help on coding issues
• Finish your coding activity and drafting an implementation plan

14:30 Share out

• Teachers take turns (5 min each) sharing your ideas for how coding might make it into your classroom.

15:30 All hands meeting

• Share observations, challenges
• Closing thoughts? Where to next?