24 SES 04 JS, Teaching, Learning and Assessment in Higher Education
Paper Session, Joint Session NW 22 and NW 24
In the last century, new thoughts and inventions come to life day by day as a result of knowledge transmission and production which are important elements in people’s lives while teachers’ roles are prominent in this process. They should have some capabilities to be good role models for individuals. This assumption brings some terms and concepts to minds that should be acquired by every teacher. In this perspective, “literacy” term obtains a concession over others explained as the capacity of individuals to find and use of knowledge, skills besides analyzing, judging and also solving and making sense of problems in different areas (OECD, 2012). Mathematics literacy has become one of the goals of mathematics teaching due to changes at technology and mathematics as a result of transition from industrial to information society (Kaiser& Willander, 2005). It is defined as “an individual’s capacity to identify and understand the role that mathematics play in the world, to make well founded judgements and to use and engage with mathematics in ways that meet the needs of that individual’s life as constructive, concerned and reflective citizen” (OECD, 2006).On the other hand, visual literacy as a different type of literacy defined by Wileman (1993) as” the ability to turn information of all types into pictures, graphics or forms that help communicate the information”. It is an interrelated concept integrating theory, visual language and presentational perspective and technological development (Kordigel Abersek, 2008). The importance of integration of various disciplines in education to provide meaningful learning is emphasized (Taşkın Can, Cantürk & Öngel, 2005) so interdisciplinary relations and looking the problems from multi-perspectives gains high attention. Hence, two literacy types will be considered as one type of literacy, visual math literacy. Each individual makes use of visual images in their daily lives, especially solving mathematical problems and concretizing the abstract concepts with this way is supported by many researchers (Polya 1973; Humbree, 1992; Kar& İpek, 2009) having positive effect on mathematics achievement of students. Duchastel (1980) mentioned the functions of visuals under different category names such as logical- mathematical and data presentation implying the relationship of visual literacy with mathematical literacy. Use of diagrams and charts in order to explain mathematical relationship is described in the former category while visual presentation of data is given as an example of the latter one. Bekdemir and Duran (2012) studied on this concept and defined it as “the mastery to define, interpret, evaluate and use the problems in daily life within visual framework and to define, interpret, evaluate and use the visual or spatial information in mathematical terms.” To be literate in visual mathematics, individuals’ affective characteristics play a prominent role due to the nature of the constructs. Self -efficacy is one of the affective constructs described by Bandura (1997) as “the beliefs in one’s capabilities to organize and execute the courses of action required producing given attainments” (p. 3). Since visual math literacy is a novel term, teachers and prospective teachers’ self efficacy beliefs toward this concept should be considered beforehand because they should have required capabilities toward the given era before assessing how students are. Teachers’ self efficacy perceptions are considered one of the factors which directly influence their quality of instructions in the long run (Tschannen-Moran, Woolfolk Hoy, 2007). There is no such a scale which assesses efficacy beliefs of teachers or teacher candidates toward visual mathematics literacy term that might be due to its recent use in the literature. Thus, the purpose of this study is to develop a valid and reliable scale to assess self efficacy beliefs of prospective teachers toward visual mathematics literacy.
Bandura, A. (1997). Self-efficacy: The exercise of control. New York: Freeman. Bekdemir, M. & Duran, M. (2012). Development of a visual math literacy self efficacy perception scale for elementary students. Journal of Ondokuz Mayıs University Education Faculty, 31(1), 89-115. Duchastel, P. C. (1980). Research on Illustrations in Instructional Texts. Bryn Mawr, Pa.: The American College, Department of Research and Evaluation. (ERIC Document Reproduction Service No. ED 215 324) Humbree, R. (1992). Experiments and relational studies in problem solving: A meta-analysis. Journal for Research in Mathematics Education, 23 (3), 242-273. Kaiser, G. & Willender, T. (2005). Development of mathematical literacy: Result of an empirical study. Teaching Mathematics and its Applications, 24(2-3), 48-60. Kar, T. & İpek, A. S. (2009). Matematik tarihinde sözel problemlerin çözümünde görsel temsillerin kullanılması [ Use of visual representations on solving word problems on mathematics history]. Journal of Qafqaz University, 28, 138-147. Kordigel Abersek (2008). Visual literacy-one of 21st century literacies for science teaching and learning. Problems of Education in the 21st Century, 5, 9-17. OECD ( Organization for Economic Co-operation and development). (2006). Assessing scientific, reading and mathematical literacy, A Framework for PISA 2006. Retrieved from the World Wide Web: http://www.oecd-ilibrary.org/docserver/download/9806031e.pdf?expires=1391258249&id=id&accname=ocid43023559&checksum=9B5AD6DD52CBC334DDD9F55C05F8CBEA OECD ( Organization for Economic Co-operation and development). (2012). PISA 2012 asessement and analytical framework, matehematics, reading, science, problem solving and financial literacy. Retrieved from World Wide Web: http://www.oecd.org/pisa/pisaproducts/PISA%202012%20framework%20e-book_final.pdf Polya, G. (1973). How to solve it, a new aspect of mathematical method. New Jersey: Princeton University Press. Taşkın Can, B., Cantürk Günhan, B.& Öngel Erdal, S. (2005). Fen bilgisi öğretmen adaylarının fen derslerinde matematiğin kullanımına yönelik özyeterlik inançlarının incelenmesi [The examination of self efficacy beliefs of science teacher candidates toward the use of mathematics on science lessons]. Jouırnal of Pamukkale University Education Faculty, 17, 47–52. Tschannen-Moran, M. & Woolfolk Hoy, A. (2007). The differential antecedents of self efficacy belşefs of novice and experienced teachers. Teaching & Teacher Education, 23(6), 944-956. Wileman, R.E. (1993). Visual communicating. Englewood Cliffs, New Jersey: Educational Technology Publications.
00. Central Events (Keynotes, EERA-Panel, EERJ Round Table, Invited Sessions)
Network 1. Continuing Professional Development: Learning for Individuals, Leaders, and Organisations
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