1. LON-CAPA: Open Source Course Management and Assessment System Gerd Kortemeyer Michigan State University

2. Resource Sharing

3. Sharing of Resources Creating online resources (web pages, images, homework problems) is a lot of work Doing so for use in just one course is a waste of time and effort Many resources could be used among a number of courses and across institutions

4. Key to Re-Usability The key to re-usability is to create course- context free resources In other words, same resource can be used in different contexts This means:  No button “next resource”  No button “back to course menu”  No wording such as “as we have previously seen”  etc

5. Using Re-Usable Resources BUT: how do you use context-free re- usable resources in the context of a course? You need an infrastructure to  Find resources in a library of resources  Sequence them up (put the puzzle together)  Serve them out to the students

6. Campus A Campus B LON-CAPA Architecture Shared Cross-Institutional Resource Library Resource Assembly Course Management Resource Assembly Course Management

7. Campus A Campus B Resource Assembly Course Management Resource Assembly Course Management LON-CAPA Architecture Shared Cross-Institutional Resource Library

8. Shared Resource Library LON-CAPA currently links 118 institutions in eight countries

9. Shared Resource Library The distributed network looks like one big file system You can see each institution, the authors at that institution, and their resources

10. Shared Resource Library Resources may be web pages …

11. Shared Resource Library … with math in them … OnlinePrint One XML/LaTeX Source Code

12. Shared Resource Library … or simulations and animations …

13. 13 … or this kind of randomizing online problems Shared Resource Library

14. …special emphasis on math …

15. Shared Resource Library … chemistry …

16. Shared Resource Library … physical units …

17. Shared Resource Library Dynamic Graphing

18. Shared Resource Library Total holdings and sharing

19. Campus A Campus B LON-CAPA Architecture Shared Cross-Institutional Resource Library Resource Assembly Course Management Resource Assembly Course Management

20. Resource Assembly “Supermarket” Shopping Cart

21. Resource Assembly Nested Assemblies No pre-defined levels of granularity („module“, „chapter“, etc) People can never agree what those terms mean Re-use possible on any level

22. 22 Resource Assembly Writes module about energy conservation Writes module about momentum conservation Compiles modules about conservation laws Uses whole assembly in his course

23. Campus A Campus B Dynamic Metadata Shared Cross-Institutional Resource Library Resource Assembly Course Management Resource Assembly Course Management

24. 24 Dynamic metadata from usage Assistance in resource selection („amazon.com“) Quality control Dynamic Metadata

25. Selection Help Assembling materials for a course Sorted by access count

26. Campus A Campus B LON-CAPA Architecture Shared Cross-Institutional Resource Library Resource Assembly Course Management Resource Assembly Course Management

27. Instructors can directly use the assembled material in their courses  navigational tools for students to access the material  grade book  communications  calendar/scheduling  access rights management  portfolio space

28. Course Management

29. Student homework progress

30. Course Management Question Analysis

31. Course Management Enabling new modes of running your course Collaborative learning space Computer-enhanced student laboratory

32. Communities of Practice

33. User Institutions Increasing number of institutions Unexpected growths at K-12 schools

34. Teacher Initiative Initiative: THEDUMP („Teachers Helping Everyone Develop User Materials and Problems“) Assembling materials that are appropriate for high school use according to curricular units Including university materials

35. Sharing Communities Online communities of practice Contributors versus users (institutions)

36. Some OLD Results - Still True

37. Time On Task

38. Exam and Course Grades Before and After

39. Gender Differential phy231: without CAPA phy232: with CAPA Gender differential Seen in studies at three other universities

40. Discussion Analysis

41. Discussions

42. Problem A bug that has a mass m b =4g walks from the center to the edge of a disk that is freely turning at 32rpm. The disk has a mass of m d =11g. If the radius of the disk is R=29cm, what is the new rate of spinning in rpm?

43. Solution No external torque, angular momentum is conserved Bug is small compared to disk, can be seen as point mass

44. Student Discussion Student A: What is that bug doing on a disk? Boo to physics. Student B: OHH YEAH ok this should work it worked for me Moments of inertia that are important.... OK first the Inertia of the particle is mr^2 and of a disk is.5mr^2 OK and angular momentum is conserved IW=IWo W=2pi/T then do this.5(mass of disk)(radius)^2(2*pi/T original)+ (mass of bug) (radius of bug=0)^2= (.5(mass of disk)(radius)^2(2pi/T))+ (mass of bug)(radius of bug)^2(2*pi/T) and solve for T

45. Student Discussion (cont.) Student C: What is T exactly? And do I have to do anything to it to get the final RPM? Student B: ok so T is the period... and apparently it works for some and not others.... try to cancel out some of the things that are found on both sides of the equation to get a better equation that has less numbers in it Student D: what did I do wrong? This is what I did. initial inertia x initial angular velocity = final inertia x final angular velocity. I=mr^2, angular velocity = w... so my I initial was (10g)(24 cm^2) and w=28 rpm. The number calculated was 161280 g *cm^2. Then I divided by final inertia to solve for the final angular speed. I found final Inertia by ( 10g +2g)(24 cm^2)=6912. I then found the new angular speed to be 23.3 rpm. This was wrong...what did I do incorrectly?

46. Student Discussion (cont.) […] Student H: :sigh: Wow. So, many, little things, can go wrong in calculating this. Be careful. […] None of the students commented on  Bug being point mass  Result being independent of radius  No unit conversions needed  Several wondered about the “radius of the bug”  Plug in numbers asap  Nobody just posted the symbolic answer Lots of unnecessary pain

47. Quantitative Research Classify student discussion contributions Types:  Emotional  Surface  Procedural  Conceptual Features:  Unrelated  Solution-Oriented  Mathematical  Physics

48. Classifying Discussions Discussions from three introductory physics courses:

49. Classifying the Problems Classifying the problems by question type Multiple Choice (incl. Multiple Response)  highest percentage of solution-oriented discussions (“that one is right”)  least number of physics discussions Ranking and click-on-image problems  Physics discussions highest Problems with representation-translation (reading a graph, etc):  slightly less procedural discussions  more negative emotional discussion (complaints)

50. Degree of Difficulty Harder than 0.6: more pain, no gain

51. Good Students Discuss Better?

52. Correlations Force Concept Inventory (FCI) Pre- and Post-Test

53. Regression PostFCI=5,486+0,922PreFCI+0,24 PercentPhysics PostFCI=7,606+0,857PreFCI-0.042 PercentSolution Meaning what? Students who contribute 100% solution-oriented discussions on the average have 4.2 points (out of 30) less on the post-test, controlling for pre-test

54. Sustainability

55. Usage = Responsibility Graph shows student course enrollments at MSU Approximately 45,000 student/course enrollments systemwide 118 institutions Some responsibility to keep this going

56. Sustainability LON-CAPA is open-source and free No license fees No income stream from that But:  Two support staff  One programmer  Hardware  User support  Training  Conferences  …

57. Sustainability  Grant funding  Commercial Spin-Off  LON-CAPA Academic Consortium

58. Grant Funding Over the last decade, LON-CAPA and its predecessors attracted approx. $4M in grants and sponsorships Not a reliable source of income Problem: you can get money for doing something new, never for the upkeep of something existing This is not really a sustainability concept

59. Spin-Off eduCog, LLC Founded 2005 Hosting LON-CAPA for  2 Universities  32 Schools  6 Publishing Companies

60. Academic Consortium Founding members: Michigan State University and University of Illinois at Urbana- Champaign Associate Member: Simon Fraser University Total commitments of $2.15M over the next five years

61. Sustainability Money at the moment not the biggest problem Real problem: personnel We have good technical personal at the moment We have problems attracting excellent academic personnel with compatible research interests:  Graduate students  Postdocs  Assistant Professor Better nobody than a mismatch

62. Conference 10th Annual Conference and Workshop Simon Fraser University, Burnaby (Vancouver) May 22nd-24th, 2008

63. Acknowledgements and Website Support provided by  National Science Foundation  Michigan State University  The Alfred P. Sloan Foundation  The Andrew W. Mellon Foundation  Our partner universities Visit us at http://www.lon-capa.org/