Abstract
Preservice teachers have a difficult time bridging theory and practice, particularly when some course work is theory intense, like Child and Human Development. Proponents of clinical practice and field experiences for teacher candidates suggest that more practice in real world contexts is essential to learning to become a teacher. These are not always available, and sometimes, alternatives need to be considered. This paper describes the design and implementation of a learning experience that provides one alternative. What is proposed is an approach to problem-based learning that utilizes ill-structured problems set in a virtual environment designed to simulate a real school. Justification for the design include contextually based simulations from Bronfenbrenner’s Bioecological Model of Human Development, and relevant constructs found in the literature on problem based learning, ill-structured problems, and the use of multi-user virtual environments. Lessons learned from the first iteration include design updates and instructional considerations for strengthening the bridge from theory to practice.
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References
Allsopp, D.H., DeMarie, D., Alvarez-McHatton, P., Doone, E.: Bridging the gap between theory and practice: connecting courses with field experiences. Teach. Educ. Q. 33(1), 19–35 (2006)
Anderson, M.J., Freebody, K.: Developing communities of praxis: bridging the theory practice divide in teacher education. McGill J. Educ. 47(3), 359–377 (2012)
Barrows, H.S., Tamblyn, R.M.: Problem Based Learning: An Approach to Medical Education. Springer, New York (1980)
Bartle, R.A.: Designing Virtual Worlds. New Riders Publishing, Indianapolis (2002)
Blankenship, R., Kim, D.: Revealing authentic teacher professional development using situated learning in virtual environments as a teaching tool. Int. Forum Teach. Stud. 8(1), 36–53 (2012)
Bronfenbrenner, U., Ceci, S.J.: Nature-nurture reconceptualized in developmental perspective: a bioecological model. Psychol. Rev. 101(4), 568–586 (1994)
Bronfenbrenner, U., Morris, P.A.: The bioecological model of human development. In: Handbook of Child Psychology (2006)
Cakiroglu, U., Ozturk, M.: Flipped classroom with problem based activities: exploring self-regulated learning in a programming language course. Educ. Technol. Soc. 20(1), 337–349 (2017)
Calandra, B., Puvirajah, A.: Teacher practice in multi user virtual environments: a fourth space. TechTrends 58(6), 26–35 (2014)
Chen, C., Bradshaw, A.C.: The effect of web-based question prompts on scaffolding knowledge integration and ill-structured problem solving. J. Res. Technol. Educ. 39(4), 359–375 (2007)
Cheung, W.S., Hew, K.F.: Evaluating the extent of ill-structured problem solving process pre-service teachers in an asynchronous online discussion and reflection log learning environment. J. Educ. Comput. Res. 30(3), 197–227 (2004)
Choi, I., Lee, K.: Designing and implementing a case-based learning environment for enhancing ill-structured problem solving: classroom management problems for prospective teachers. Educ. Technol. Res. Dev. 57(1), 99–129 (2009)
Dieterle, E., Clarke, J.: Multi-user virtual environments for teaching and learning. In: Pagani, M. (ed.) Encyclopedia of Multimedia Technology and Networking, 2nd edn. Idea Group, Inc., Hershey (2009)
Dunsmuir, S., Frederickson, N., Lang, J.: Meeting current challenges in school psychology training: the role of problem-based learning. Sch. Psychol. Rev. 46(4), 395–407 (2017)
Gravett, S., Ramsaroop, S.: Bridging theory and practice in teacher education: teaching schools – a bridge too far? Perspect. Educ. 33(1), 131–146 (2015)
Omale, N., Hung, W., Luetkenhans, L., Cooke-Plagwitz, J.: Learning in 3-D multiuser virtual environments: exploring the use of unique 3-D attributes for online problem-based learning. Br. J. Edu. Technol. 40(3), 480–495 (2009)
McDevitt, T.M., Jobes, R.D., Cochran, K.F., Sheehan, E.P.: Is it nature or nurture? Beliefs about child development held by college students in psychology courses. Coll. Stud. J. 44(22), 533–550 (2010)
Miller, N.C.: Claiming the unclaimed spaces: virtual spaces for learning. Educ. Media Int. 53(1), 13–26 (2016)
Papachristos, N., Vrellis, I., Natsis, A., Mikropoulos, T.A.: The role of environment design in an educational multi-user virtual environment. Br. J. Edu. Technol. 45(4), 636–646 (2014)
Raath, S., Golightly, A.: Geography education students’ experiences with problem-based learning fieldwork activity. J. Geogr. 116(5), 217–225 (2017)
Reed, S.K.: The structure of ill-structured (and well-structured) problems revisited. Educ. Psychol. Rev. 28(4), 691–716 (2015)
Roberts, L.: Research in the real world: improving adult learners web search and evaluation skills through motivational design and problem-based learning. Coll. Res. Libr. 78(4), 527–551 (2017)
Shin, N., McGee, S.: Identifying questions to investigate: designers should enhance students’ ill-structured problem solving skills. Center for Educational Technologies and the Classroom of the Future. http://www.cotf.edu/vdc/entries/illps.html. Accessed 13 Feb 2018
Simon, H.: The structure of ill-structured problems. Artif. Intell. 4, 181–201 (1973)
Skinner, B.F.: The Behavior or Organisms: An Experimental Analysis. Appletone-Century, Cambridge (1938)
Torp, L., Sage, S.: Problems as Possibilities: Problem-Based Learning for K-16 Education, 2nd edn. ASCD, Alexandria (2002)
Tudge, R.H., Mokrova, I., Hatfield, B.E., Karnik, R.B.: Uses and misuses of Bronfenbrenner’s bioecological theory of human development. J. Fam. Theory Rev. 1, 198–210 (2009)
Vygotsky, L.: Mind in Society: Development of Higher Psychological Processes. Harvard University Press, Cambridge (1978)
Zheng, R.Z., Flygare, J.A., Dahl, L.B.: Style matching or ability building? An empirical study on fd learners’ learning in well-structured and ill-structured asynchronous online learning environments. J. Educ. Comput. Res. 41(2), 195–226 (2009)
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De León, L. (2018). Learning Child Development Through Immersion in Ill-Structured Problems Using a Virtual Environment. In: Beck, D., et al. Immersive Learning Research Network. iLRN 2018. Communications in Computer and Information Science, vol 840. Springer, Cham. https://doi.org/10.1007/978-3-319-93596-6_10
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