Investigating the Relative Difficulty of Complex Systems Ideas in Biology

Author(s)

Goh, Sao-Ee; Yoon, Susan A.; Wang, Joyce; Yang, Zhitong; Klopfer, Eric

Abstract

A number of students’ biology misconceptions can be attributed to their lack of understanding in complex systems. Comprehending complex systems can be counter intuitive and difficult. A literature review reveals that we have yet to systematically determine a learning approach to address these learning challenges. In this paper, we propose that learning progressions research offers a methodical approach to organize the learning pathways students take to improve conceptual competence in complex systems. As a first step, we articulate a sequence of complex systems ideas - from the least to most difficult - by analyzing students’ written responses. Using an Item Response Theory model, we found that the easiest ideas to grasp are those that relate to the interconnected nature of these systems whereas the most difficult ideas are those concerning the decentralized organization of the system, and the predictability of the system effects.

Date issued

2012-07

URI

http://hdl.handle.net/1721.1/93245

Department

Massachusetts Institute of Technology. Department of Urban Studies and Planning

Journal

Proceedings of the10th International Conference of the Learning Sciences: The Future of Learning

Publisher

International Society of the Learning Sciences

Citation

Goh, Sao-Ee, Susan A. Yoon, Joyce Wang, Zhitong Yang,and Eric Klopfer. "Investigating the Relative Difficulty of Complex Systems Ideas in Biology." 10th International Conference of the Learning Sciences: The Future of Learning, ICLS 2012, Sydney, Australia, July 2-6, 2012.

Version: Author's final manuscript

Other identifiers

(Full Paper Session) FP1.2

Parallel Session 1, room NL107