Using Concept Maps and Concept Questions to Enhance Conceptual Understanding

Using Concept Maps and Concept Questions to Enhance Conceptual Understanding

D. Darmofal, D. Brodeur, D. Soderholm (2002).  Using Concept Maps and Concept Questions to Enhance Conceptual Understanding. 7.

Conceptual understanding is the ability to apply knowledge across a variety of instances or circumstances. Several strategies can be used to teach and assess concepts, e.g., inquiry, exposition, analogies, mnemonics, imagery, concept maps, and concept questions. This paper focuses on the last two -- concept maps and concept questions.

Concept maps are two-dimensional, hierarchical diagrams that show the structure of knowledge within a discipline. Concept questions are questions posed to students to encourage higher order thinking and help them understand the basic principles of a discipline. This paper describes progress at MIT in the development and use of concept maps and concept questions in aerospace engineering.

Authors (New): 
David L. Darmofal
Doris R. Brodeur
Diane H. Soderholm
Pages: 
7
Affiliations: 
Massachusetts Institute of Technology, USA
Keywords: 
aerospace engineering
Concept Maps
Concept questions
Conceptual Understanding
Year: 
2002
Reference: 
Angelo, T. A., and K. P. Cross, “Classroom Assessment Techniques: A Handbook for College Teachers”, 2nd ed., Jossey-Bass, San Francisco, 1993.: 
Mazur, E., Peer Instruction: A User's Manual, Prentice-Hall, Upper Saddle River, NJ, 1997.: 
Personal Response System, PRS, http://www.educue.com: 
Felder, R. M., and R. Brent, "Navigating the Bumpy Road to StudentCentered Instruction", College Teaching, 1996, pp. 43-47.: 
Hake, R. R., "Interactive-Engagement vs. Traditional Methods: A SixThousand-Student Survey of Mechanics Test Data for Introductory Physics Courses", American Journal of Physics, v. 66 no. 1, 1998, pp. 64-74.: 
Heller, P., and M. Hollobaugh, "Teaching Problem Solving Through Cooperative Grouping, Part 2: Designing Problems and Structuring Groups", American Journal of Physics, v. 60 no. 7, 1992, pp. 637-644.: 
Heller, R., R. Keith, and S. Anderson, " Teaching Problem Solving Through Cooperative Grouping, Part 1: Group vs. Individual Problem Solving", American Journal of Physics, v. 60 no. 7, 1992, pp. 627- 636.: 
Johnson, D. W., and R. T. Johnson, Cooperation and competition: Theory and Research, Interaction Book Company, Edina, MN, 1989.: 
Johnson, D. W., and R. T. Johnson, Meaningful and Manageable Assessment Through Cooperative Learning, Interaction Book Company, Edina, MN, 1996.: 
Johnson, D. W., R. T. Johnson, and K.A. Smith, Active Learning: Cooperation in the College Classroom, Interaction Book Company, Edina, MN, 1991.: 
Meltzer, D. E., and K. Manivannan, "Promoting Interactivity in Physics Lecture Classes", Physics Teacher, v. 34, 1996, pp. 72-76.: 
Smith, P. L., and T. J. Ragan, Instructional Design, 2d ed., Merrill, Upper Saddle River, NJ, 1999.: 
Wiggins, G., and J. McTighe, Understanding By Design, Association for Supervision and Curriculum Development, Alexandria, VA, 1998.: 
Gagne, R. M., “The Conditions of Learning”, 3rd ed., Holt, Rhinehart, and Winston, New York, 1977.: 
National Research Council, How People Learn: Brain, Mind, Experience, and School, National Academy Press, Washington, DC, 2000. Available at http://books.nap.edu/books/0309070368/html/index.html.: 
Posner, G., K. Strike, P. Hewson, and W. Gerzog, "Accommodation of a Scientific Conception: Toward a Theory of Conceptual Change", Science Education, v. 66, 1982, pp. 211-227: 
Mintzes, J. J., J. H. Wandersee, and J. D. Novak (Eds.), Teaching Science for Understanding: A Human Constructivist View, Academic Press, New York, 1998.: 
Novak, J. D., Learning, Creating, and Using Knowledge: Concept Maps as Facilitative Tools in Schools and Corporations, Lawrence Erlbaum Associates, New York, 1998.: 
Plotnik, E., Concept Mapping: A Graphical System for Understanding the Relationship Between Concepts, 1997. (ERIC Document Reproductions Service No. ED407938). Available at http://ericir.syr.edu/plweb-cgi/obtain.pl: 
Novak, J. D. and D.B. Gowin, Learning How to Learn, Cambridge University Press, Cambridge, UK, 1984.: 
Cornwell, P. J., "Concept Maps in the Mechanical Engineering Curriculum", Proceedings of the 2000 American Society of Engineering Education Annual Conference and Exposition, 2000. Available at http://www.asee.org/conferencessearch.: 
Danielson, S., and S. Mehta, "Statics Concept Questions for Enhancing Learning", Proceedings of the 2000 American Society of Engineering Education Annual Conference and Exposition, 2000. Available at http://www.asee.org/conferencessearch.: 
Harmon, T. C., G. A. Burks, G. Chung, and E. Baker, "Evaluation of a Simulation and Problem-Based Learning Design Project Using Session 0-7803-7444-4/02/$17.00 © 2002 IEEE November 6 - 9, 2002, Boston, MA 32nd ASEE/IEEE Frontiers in Education Conference 6 Constructed Knowledge Mapping", Proceedings of the 2001 American Society of Engineering Education Annual Conference and Exposition, 2001. Available at http://www.asee.org/conferencessearch.: 
Turns, J., C.J. Atman, and R, Adams, “Concept Maps for Engineering Education: A Cognitively Motivated Tool Supporting Varied Assessment Functions”, IEEE Transactions on Education, v. 43, no. 2, 2000, pp. 164-173.: 
Streveler, R. A., and R. L. Miller, “Investigating Student Misconceptions in the Design Process Using Multidimensional Scaling”, Proceedings of the 2001 American Society of Engineering Education Annual Conference and Exposition, 2001. Available at http://www.asee.org/conferencessearch.: 
Mosteller, F., “The ‘Muddiest Point in the Lecture’, as a Feedback Device,” In Teaching and Learning:The Journal of the HarvardDanforth Center, Vol. 3, 1989.: 
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