Abstract
Previous studies have revealed the close relationship between students’ conceptions of and approaches to learning. However, few studies have explored this relationship in the field of learning mass communication. Therefore, this study aims to explore the relationships between students’ conceptions of learning mass communication (COLMC) and approaches to learning mass communication (ALMC). The two questionnaires were validated using a sample of 362 Taiwanese university students. Eight factors were derived from the COLMC questionnaire (“Memorizing,” “Aiming for examination,” “Video production,” “Integrated marketing communication,” “Increase of knowledge,” “Applying,” “Understanding,” and “Seeing in a new way”), and five factors were derived from the ALMC questionnaire (“Deep motive,” “Deep strategy,” “Surface motive,” “Surface strategy-narrow study target,” and “Surface strategy-rote learning”). Two newly developed factors, “Video production” and “Integrated marketing communication” were added to COLMC as unique features for mass communication students. The results indicated that these two questionnaires exhibited adequate reliability for assessing students’ conceptions of and approaches to learning mass communication. It was also found that the “Memorizing” and “Aiming for examination” factors in COLMC predicted students’ surface strategies in learning mass communication. In addition, students with conceptions of “Integrated marketing communication” tended to adopt deep motive for learning mass communication. In conclusion, this study revealed the relationships between students’ COLMC and ALMC in Taiwan. Furthermore, it may provide mass communication teachers with a better understanding of how students’ conceptions of learning relate to their approaches to learning mass communication.
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References
Aggarwal, V. B., & Gupta, V. (2001). Handbook of journalism and mass communication. New Delhi: Concept Publishing Company.
Beavers, A. S., Lounsbury, J. W., Richards, J. K., Huck, S. W., Skolits, G. J., & Esquivel, S. L. (2013). Practical considerations for using exploratory factor analysis in educational research. Practical Assessment, Research & Evaluation, 18, 1–13.
Biggs, J. B. (1978). Individual and group differences in study processes. British Journal of Educational Psychology, 48(3), 266–279.
Biggs, J. B. (1987). Student Approaches to Learning and Studying. Research Monograph. Australian Council for Educational Research Ltd., Radford House, Frederick St., Hawthorn 3122, Australia.
Biggs, J. (1994). Approaches to learning: Nature and measurement of. The International Encyclopedia of Education, 1, 319–322.
Chan, J. M. (1996). Whither mass communication education in Asia? Asia Pacific Media Educator, 1(1), 16–27.
Chiou, G. L., & Liang, J. C. (2012). Exploring the structure of science self-efficacy: A model built on high school students’ conceptions of learning and approaches to learning in science. Asia-Pacific Education Researcher, 21(1), 83–91.
Chiou, G. L., Liang, J. C., & Tsai, C. C. (2012). Undergraduate students’ conceptions of and approaches to learning in biology: A study of their structural models and gender differences. International Journal of Science Education, 34(2), 167–195.
Dart, B. C., Burnett, P. C., Purdie, N., Boulton-Lewis, G., Campbell, J., & Smith, D. (2000). Students’ conceptions of learning, the classroom environment, and approaches to learning. The Journal of Educational Research, 93(4), 262–270.
Eklund-Myrskog, G. (1998). Students’ conceptions of learning in different educational contexts. Higher Education, 35(3), 299–316.
Entwistle, N. (1997). Reconstituting approaches to learning: A response to Webb. Higher Education, 33(2), 213–218.
Fedorov, A. (2003). Media education and media literacy: experts’ opinions.
Fedorov, A. (2015). Media education around the world: Brief history. Browser Download This Paper.
Han, G., & Newell, J. (2014). Enhancing student learning in knowledge-based courses: Integrating team-based learning in mass communication theory classes. Journalism & Mass Communication Educator, 69(2), 180–196.
Hemati Alamdarloo, G., & Moradi, S. (2013). The relationship between students’ conceptions of learning and their academic achievement. Psychology, 4(1), 44–49.
Hobbs, R., & Jensen, A. (2009). The past, present, and future of media literacy education. Journal of Media Literacy Education, 1(1), 1.
Kember, D., Biggs, J., & Leung, D. Y. (2004). Examining the multidimensionality of approaches to learning through the development of a revised version of the Learning Process Questionnaire. British Journal of Educational Psychology, 74(2), 261–279.
Lee, M. H., Johanson, R. E., & Tsai, C. C. (2008). Exploring Taiwanese high school students’ conceptions of and approaches to learning science through a structural equation modeling analysis. Science Education, 92(2), 191–220.
Li, W. T., Liang, J. C., & Tsai, C. C. (2013). Relational analysis of college chemistry-major students’ conceptions of and approaches to learning chemistry. Chemistry Education Research and Practice, 14(4), 555–565.
Liang, J. C., & Tsai, C. C. (2010). Relational analysis of college science-major students’ epistemological beliefs toward science and conceptions of learning science. International Journal of Science Education, 32(17), 2273–2289.
Liang, J. C., Su, Y. C., & Tsai, C. C. (2015). The assessment of Taiwanese college students’ conceptions of and approaches to learning computer science and their relationships. The Asia-Pacific Education Researcher, 24(4), 557–567.
Lin, C. L., Tsai, C. C., & Liang, J. C. (2012a). An investigation of two profiles within conceptions of learning science: An examination of confirmatory factor analysis. European Journal of Psychology of Education, 27(4), 499–521.
Lin, Y. C., Liang, J. C., & Tsai, C. C. (2012b). The relationships between epistemic beliefs in biology and approaches to learning biology among biology-major university students in Taiwan. Journal of Science Education and Technology, 21(6), 796–807.
Lingwall, A. (2008). IMC and its integration into programs of journalism and mass communication. Pedagogy Posters, 108, 59.
Maben, S., Edwards, J., & Malone, D. (2014). Online engagement through facebook groups in face-to-face undergraduate communication courses: A case study. Southwestern Mass Communication Journal, 29(2), 1–27.
Marton, F., Dall’Alba, G., & Beaty, E. (1993). Conceptions of learning. International Journal of Educational Research, 19(3), 277–300.
Mau, W. C. (2000). Cultural differences in career decision-making styles and self-efficacy. Journal of Vocational Behavior, 57(3), 365–378.
Morreale, S. P., Osborn, M. M., & Pearson, J. C. (2000). Why communication is important: A rationale for the centrality of the study of communication. JACA-ANNANDALE-, 1, 1–25.
Peterson, E. R., Brown, G. T., & Irving, S. E. (2010). Secondary school students’ conceptions of learning and their relationship to achievement. Learning and Individual Differences, 20(3), 167–176.
Riff, D., Lacy, S., & Fico, F. (2014). Analyzing media messages: Using quantitative content analysis in research. New York: Routledge.
Roush, C. (2006). The need for more business education in mass communication schools. Journalism & Mass Communication Educator, 61(2), 195–204.
Säljö, R. (1979). Learning in the learner’s perspective I: Some commonsense conceptions. Gothenburg, Sweden: Institute of Education, University of Gothenburg.
Shen, K. M., Lee, M. H., Tsai, C. C., & Chang, C. Y. (2016). Undergraduate students’ earth science learning: Relationships among conceptions, approaches, and learning self-efficacy in Taiwan. International Journal of Science Education, 38(9), 1527–1547.
Shewbridge, W., & Berge, Z. L. (2004). The role of theory and technology in learning video production: The challenge of change. International Journal on E-learning, 3(1), 31–40.
Stevens, J. (1996). Applied multivariate statistics for the social science (3rd ed.). Mahwah, NJ: Erlbaum.
Thompson, B., & Daniel, L. G. (1996). Factor analytic evidence for the construct validity of scores: A historical overview and some guidelines. Educational and Psychological Measurement, 56, 197–208.
Tsai, C. C. (2004). Conceptions of learning science among high school students in Taiwan: A phenomenographic analysis. International Journal of Science Education, 26(14), 1733–1750.
Tsai, C. C. (2006). Biological knowledge is more tentative than physics knowledge: Taiwan high school adolescents’ views about the nature of biology and physics. Adolescence, 41(164), 691–703.
Tsai, C. C., Ho, H. N. J., Liang, J. C., & Lin, H. M. (2011). Scientific epistemic beliefs, conceptions of learning science and self-efficacy of learning science among high school students. Learning and Instruction, 21(6), 757–769.
Tsai, P. S., Chai, C. S., Hong, H. Y., & Koh, J. H. L. (2017). Students’ conceptions of and approaches to knowledge building and its relationship to learning outcomes. Interactive Learning Environments, 25(6), 749–761.
Van Rossum, E. J., & Taylor, I. P. (1987, April). The relationship between conceptions of learning and good teaching: A scheme of cognitive development. In annual meeting of the American Educational Research Association, Washington DC, April 1987.
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This study is, in part, supported by the Ministry of Science and Technology, Taiwan, under grant numbers of MOST 105-2628-S-011-002-MY3 and MOST 106-2511-S-003-058-MY3.
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Huang, WL., Liang, JC. & Tsai, CC. Exploring the Relationship Between University Students’ Conceptions of and Approaches to Learning Mass Communication in Taiwan. Asia-Pacific Edu Res 27, 43–54 (2018). https://doi.org/10.1007/s40299-017-0364-z
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DOI: https://doi.org/10.1007/s40299-017-0364-z