Meaning Check Questions as an Active Learning Tool in the University Biology Laboratory Assists International Students

Hye-Jin Kim  Hawkes; Aldo Armstrong  Hawkes; Kathryn Fay  Tonissen

doi:10.4236/ce.2012.326130

Hye-Jin Kim Hawkes, Aldo Armstrong Hawkes, Kathryn Fay Tonissen^*

Abstract: Greater participation by students is associated with better learning outcomes. Therefore active learning approaches in teaching have been encouraged for teachers to use in the classroom. In particular, student-centered learning is highly appreciated in a classroom where international students have to learn in English while it is not their first language. Master of Science students at Griffith University, Australia, all international students, were exposed to an environment where Meaning Check Questions (MQ) were practiced as an active learning approach. The MQs were incorporated into a biology laboratory course and required the students to answer short verbal questions relating to the course content, experimental procedures and scientific writing. The results show that these methods encouraged students to be more active in class and improved their confidence level and knowledge of the key concepts during the course, compared to students who did not experience the MQ learning approach. Students exposed to MQs during the course also showed a distinct improvement in their confidence towards scientific writing.

Keywords: Student Centered Learning, Meaning Check Questions (MQ); Scientific Writing Skills; International Student; Biology Laboratory

Cite this paper: Hawkes, H. , Hawkes, A. & Tonissen, K. (2012). Meaning Check Questions as an Active Learning Tool in the University Biology Laboratory Assists International Students. Creative Education, 3, 866-873. doi: 10.4236/ce.2012.326130.

References

[1] Ali, F., Jadavji, N. M., Ong, W. C., Pandey, K. R., Patananan, A. N., Prabhala, H. K., & Yang, C. H. (2007). Supporting undergraduate research. Science, 317, 42. doi:10.1126/science.317.5834.42a

[2] Archer, A. (2006). A multimodal approach to academic “literacies”: Problematizing the visual/verbal divide. Language and Education, 20, 449-462. doi:10.2167/le677.0

[3] Biggs, J. (2003). Teaching for quality learning at university (2nd ed.). Buckingham: Society for Research into Higher Education and Open University Press.

[4] Chan, S. (1999). The Chinese learner—A question of style. Education and Training, 41, 294-305. doi:10.1108/00400919910285345

[5] Chickering, A. W., & Gamson, Z. F. (1999). Development and adaptations of the seven principles for good practice in undergraduate education. New Directions for Teaching and Learning, 80, 75-81. doi:10.1002/tl.8006

[6] Compte, O., & Postlewaite, A. (2004). Confidence-enhanced performance. The American Economic Review, 94, 1536-1557. doi:10.1257/0002828043052204

[7] Farell, T. S. C. (2009). Talking, listening, and teaching: A guide to classroom communication. Thousand Oaks, CA: Corwin Press.

[8] Griffith University (2008). Griffith University international. URL (last checked 30 October 2008). http://studylink.com/australia/display/provider/provider-info.html?pid=pid-mm-01-00233e

[9] Jordan, J., & Kedrowicz, A. (2011). Attitudes about graduate L2 writing in engineering: Possibilities for more integrated instruction. Across the Disciplines, 8. URL (last checked 22 October 2012). http://wac.colostate.edu/atd/ell/jordan-kedrowicz.cfm

[10] Kardash, C. M., & Wallace, M. L. (2001). The perceptions of science classes survey: What undergraduate science reform efforts really need to address. Journal of Educational Psychology, 93, 199-210. doi:10.1037/0022-0663.93.1.199

[11] Kember, D. (2000). Misconceptions about the learning approaches, motivation and study practices of Asian students. Higher Education, 40, 99-121. doi:10.1023/A:1004036826490

[12] Knight, J. K., & Wood, W. B. (2005). Teaching more by lecturing less. Cell Biology Education, 4(4), 298-310. doi:10.1187/05-06-0082

[13] Lee, S. E., Woods, K. J., & Tonissen, K. F. (2011). Writing activities embedded in bioscience laboratory courses to change students’ attitudes and enhance their scientific writing. EURASIA Journal of Mathematics, Science & Technology Education, 7, 193-202.

[14] Libarkin, J., & Ording, G. (2012). The utility of writing assignments in undergraduate bioscience. CBE—Life Sciences Education, 11, 39-46. doi:10.1187/cbe.11-07-0058

[15] Manske, B. (2010). That’s not biology...Or is it? Changing student’s perceptions of writing in the sciences. URL (last checked 22 August 2012). http://mendota.english.wisc.edu/~WAC/page.jsp?id=174&c_type=article&c_id=4

[16] Mattern, K. D., Burrus, J., & Shaw, E. (2009). When both the skilled and unskilled are unaware: Consequences for academic performance. Self and Identity, 9, 129-141. doi:10.1080/15298860802618963

[17] McKeachie, W. J., Pintrich, P. R., Smith, D. A., & Lin, Y. G. (1986). Teaching and learning in the college classroom: A review of the research literature. Ann Arbor, MI: The University of Michigan.

[18] Myhill, D. (2010). Its good to talk—Participatory talk for learning classrooms. Educational Research in Classrooms, 1, 1-12.

[19] Peat, J., Elliott, E., Baur, L., & Keena, V. (2002). Scientific writing— Easy when you know how. London: BMJ Publishing Group, Ltd.

[20] Quitadamo, J., & Kurtz, M. (2007). Learning to Improve: Using writing to increase critical thinking performance in general education biology. CBE—Life Sciences Education, 6, 140-154. doi:10.1187/cbe.06-11-0203

[21] Seymour, E., & Hewitt, N. M. (1997). Talking about leaving: Why undergraduates leave the sciences. Boulder, CO: Westview Press.

[22] Smith, A. C., Stewart, R., Shields, P., Hayes-Klosteridis, J., Robinson, P., & Yuan, R. (2005). Introductory biology courses: A framework to support active learning in large enrollment introductory science courses. Cell Biology Education, 4, 143-156. doi:10.1187/cbe.04-08-0048

[23] Strenta, A. C. I., Elliott, R., Adair, R., Matier, M., & Scott, J. (1994). Choosing and leaving science in highly selective institutions. Research in Higher Education, 35, 513-547. doi:10.1007/BF02497086

[24] TEFL. (2007). Is this a concept check question? URL (last checked 22 August 2012). http://www.tefllogue.com/training/is-this-a-concept-check-question.html

[25] Vygotsky, L. S. (1986). Thought and language (A. Kozulin, Trans.). Cambridge, MA: MIT Press.

[26] Walczyk, J. J., & Ramsey, L. L. (2003). Use of learner-centered instruction in college science and mathematics classrooms. Journal of research in science teaching, 40, 566-584. doi:10.1002/tea.10098

[27] Wong, J. K. (2004). Are the learning styles of Asian international students culturally or contextually based? International Education Journal, 4, 154-166.

[28] Wood, W. B. (2003). Inquiry-based undergraduate teaching in the life sciences at large research universities: A perspective on the Boyer Commission Report. CBE—Life Sciences Education, 2, 112-116. doi:10.1187/cbe.03-02-0004

[29] Workman, G. (2005). Concept questions and time lines. Cambridge: Chadburn Publishing.