The Influence of Age, Gender and Subject Choice on Logical and Lateral Thinking Skills in Science Students at Secondary Level
One of the primary goals in education is the development of a student's cognitive structure on acquiring knowledge and understanding through thought processes, experiences and the senses. The mind’s ‘handling system’ imposes a number of imperfections and lateral thinking, together with logical thinking, is one way to compensate for some disadvantages. Children must not passively receive content knowledge but engage as active learners in thinking independently by combining logic with creativity and intuition (Phillips, 2011).
A research study was carried out, aiming to provide a better insight into the development of thinking skills in Science students in Maltese secondary schools, and to outline – in particular – how the concept of lateral thinking and logical thinking skills may be used to enhance creative and analytical thinking in the classroom.
The study was conducted in two Church schools of different gender involving a total of 98 students (half attending a girls’ school, and the rest a boys’ school). Schools of a similar level, with a spectrum of different learning abilities, were chosen. Two different age groups were considered: Form II (c. 12 year old) students, exposed to the same level of Integrated Science, and two Form IV (c. 14 year old) classes with different subject choices. The latter were a class with the three Science subjects (Biology, Chemistry and Physics) and another class with only one (compulsory) Science subject. Some researchers claim that certain subjects require more problem solving skills than others, thus inducing better general thinking skills (Smith, 1981).
To measure the levels of creative thinking and logical ability, students were presented with a test including creative and analytical questions. The test consisted of 19 questions, divided in five categories. The participants’ responses, from both gender schools, were analysed in order to compare and investigate any patterns with respect to age, gender and subject choice. The study revealed that students studying the three Science subjects, and particularly boys, tend to think more outside the box with respect to their peers.
References:
[1] Ackroyd , S., & Hughes , J. (1992). Aspects of Modern Sociology. Data Collection in Context. London and New York : Longman.
[2] Armstrong, T. (2000). Multiple intelligences in the classroom (2nd ed.). Alexandria: Association for Supervision and Curriculum Development.
[3] Bruner. (1957). Going beyond the information given. New York: Norton.
[4]. Bunch, D. M. (1993). The Use of GALT( Group Assessment of Logical Thinking) as a predictor of academic success in college chemistry. Journal of Chemical Education , 70 (3), 183-187.
[5] Chetcuti, D. (2009). Identifying a Gender -Inclusive pedagogoy from the Maltese teachers' personal practical knowledge. International Journal of Science Education , 31 (1), 81-99.
[6] Davis, R. A. (1950). Writing a Thesis in Education. Peabody Journal of Education, , 27 (5), 285–295.
[7] Feingold , A. (1992). The greater male variability in intellectual abilities: A new look at an old controversy: Science versus politics. Review of Educational Research , 61-84.
[8] Fowler, L., & Watford, L. (2000). Formal Reasoning and Academic Performance in College Mathematics and Psychology Courses. Educational Research Quarterly .
[9] Gardner , H. (2006). Multiple Intelligences: New horizons in theory and practice. New York: Basic Books.
[10] Gardner, H. &. (1999). Multiple intelligences go to school: Educational implications of the theory of multiple intelligences. Educational Researcher,18 (8), 4-9.
[11] Gardner, H. (2004). Changing Minds: The Art and Science of Changing Our Own and Other People's Minds. USA: Harvard Business School .
[12] Horn, I. (2009). Learner-centredness: An analytical critique . South African Journal of Education , 29, 511-525.
[13] LearnDotTacomacc. (2016, May 11). Lateral thinking puzzles that challenge your preconceptions. Retrieved May 2015, from Lateral Thinking Puzzles : http://www.folj.com/lateral/
[14] Lubinski , D. S., & Benbow, C. P. (2007). Sex Differences in personal attributes for the development of scientific expertise. American Pschological Association , 79-100.
[15] Mitchell, C. (2008). Getting the picture and changing the picture: Visual methodologies and educational research in South Africa. South Africa Journal of Education , 365-383.
[16] OECD. (2009). PISA 2009 Assessment Framework: Key Competencies in Reading, Mathematics and Science, Paris: OECD Publishing. Paris: OECD Publishing.
[17] OECD. (2008). School questionnaire for PISA 2009 main survey. Paris: OECD.
[18] Phillips, C. (2011). Logical Thinking. London: Connections Book Publishing Ltd.
[19] Shearer , B. (2004). Multiple Intelligences theory after 20 years . Teacher's College Record , 106 (1), 2-16.
[20] Singh Negi, N. (2014). Types of Analytical Ability Questions. Retrieved May 2014, from Aptitudetests4me: http://www.aptitudetests4me.com/Analytical_Ability_1.html
[21] Sloane , P., & MacHale , D. (2005). Outstanding Lateral thinking Puzzles. New York : Sterling Publishing Co.,Inc.
[22] Smith, A. (1981). Piaget's Model of Child Development: Implications for Educators. The Clearing House , 55 (1), 24-27.
[23] Smyth, E., & Darmody, M. (2009). ‘Man enough to do it’? Girls and non-traditional subjects in lower secondary education. Gender and Education , 21 (3), 273-292.
[24] Sternberg, R. J. (1985). Beyond IQ. . New York : Cambridge University Press.
[25] Sternberg, R. J., & Williams, W. M. (2010). Educational Psychology. New Jersey: Pearson Education.
[26] Vygotsky , L. S. (1987). The development of Scientific concepts in childhood. Problems of general psychology , 1, 167-241.
New Perspectives in Science Education
