Araştırma Makalesi
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Analysis of the Mathematical Thinking Levels of Individual and Team Athletes in Terms of Different Variables

Yıl 2021, Cilt: 8 Sayı: 2, 148 - 157, 21.04.2021

Öz

This study was carried out to examine athletes' mathematical thinking levels who do individual and team sports in different variables. The study was conducted with a relational screening model, which is one of the general screening models. The data were collected by a survey method. "Mathematical Thinking Scale" was used to determine the mathematical thinking levels of athletes. The research population was composed of licensed athletes studying in high schools and universities in the 2020-2021 academic year in Turkey, while 459 licensed athletes determined among these students by a simple random method made up the sample group. The Independent-Samples T-Test was applied to determine the differences between the participants' gender, education and branch variables, and their mathematical thinking level. The Pearson Correlation test was applied to determine the relationship between age, sports year, and mathematical thinking levels. As a result of the analysis, a significant difference was observed favouring female participants in the gender variable and mathematical thinking skills sub-dimension. Additionally, it was determined that there was a significant positive relationship between the sports year and the reasoning sub-dimension. As a result, it is thought that the more inclusion of individual or team sports types in education programs will contribute to an individual's mathematics and academic success.

Kaynakça

  • Akyüz E. T. & Gündüz K. A. A. (2019). Research on mathematıcal attıtudes of secondary school and hıgh school students interested in sports. Route Educational and Social Science Journal, 6(8), 141-157.
  • Arslantaş B., Malbeleği F. & İnan M. (2018). Examination of mathematical thinking skills of university students attending universities intercultural competition. Journal of Physical Education and Sports Studies, 10(2), 102-112.
  • Baroody A. J. (2003). The development of adaptive expertise and flexibility: The integration of conceptual and procedural knowledge. The development of arithmetic concepts and skills: Constructive adaptive expertise, 1-33.
  • Biltzer R. (2003). Thinking mathematically. New Jersey 07458;2003.
  • Canan F. & Ataoğlu A. (2010). The influence of sports on anxiety, depression, and perceived problem solving ability. Anatolian Journal of Psychiatry, 11(38), 38-43.
  • Castelli D. M., Hillman C. H., Buck S. M. & Erwin H. E. (2007). Physical fitness and academic achievement in third-and fifth-grade students. Journal of Sport and Exercise Psychology, 29(2), 239-252.
  • Certel Z., Çatıkkaş F. & Yalçınkaya M. (2011). Analysis of the Emotional Intelligence Levels and Critical Thinking Dispositions of Physical Education Teacher Candidates. Selçuk University Journal of Physical Education and Sport Science, 13(1), 74-81.
  • Cotton T. (2010). Understanding and teaching primary mathematics. Pearson Education Limited.
  • Çinkılıç İ. & Soyer F. (2013). An investigation the relation between multiple inteligence areas of pre-service physical education teacher and their problem-solving skills. Spor Yönetimi ve Bilgi Teknolojileri Dergisi, 8(1), 4-16.
  • Devlin K. (2010). Introduction to mathematical thinking. Keith Devlin.
  • Ellemberg D. & St-Louis-Deschênes M. (2010). The effect of acute physical exercise on cognitive function during development. Psychology of Sport and Exercise, 11(2), 122-126.
  • Elofsson J., Englund Bohm A., Jeppsson C. & Samuelsson J. (2018). Physical activity and music to support pre-school children’s mathematics learning. Education, 46(5), 483-493.
  • Ersoy E. & Başer N. E. (2013). The Development of Mathematical Thinking Scale. Kastamonu Education Journal, 21(4), 1471-1486.
  • Ersoy E. & Güner P. (2014). Mathematics Teaching and Mathematical Thinking. Journal of Research in Education and Teaching, 3(2), 102-112.
  • Esteban-Cornejo I., Tejero-Gonzalez C. M., Sallis J. F. & Veiga O. L. (2015). Physical activity and cognition in adolescents: A systematic review. Journal of Science and Medicine in Sport, 18(5), 534-539.
  • Ferri R. B. (2015). Mathematical thinking styles in school and across cultures. In Selected regular lectures from the 12th international congress on mathematical education (pp. 153-173). Springer, Cham.
  • Fox C. K., Barr‐Anderson D., Neumark‐Sztainer D. & Wall M. (2010). Physical activity and sports team participation: Associations with academic outcomes in middle school and high school students. Journal of School Health, 80(1), 31-37.
  • George D. & Mallery P. (2019). IBM SPSS statistics 26 step by step: A simple guide and reference. Routledge.
  • Gudmundsson J. & Horton M. (2017). Spatio-temporal analysis of team sports. ACM Computing Surveys (CSUR), 50(2), 1-34.
  • Have M., Nielsen J. H., Ernst M. T., Gejl A. K., Fredens K., Grøntved A. & Kristensen P. L. (2018). Classroom-based physical activity improves children’s math achievement–A randomised controlled trial. PloS one, 13(12), e0208787.
  • Hillman C. H., Erickson K. I. & Kramer A. F. (2008). Be smart, exercise your heart: exercise effects on brain and cognition. Nature Reviews Neuroscience, 9(1), 58-65.
  • Hillman C. H., Pontifex M. B., Raine L. B., Castelli D. M., Hall E. E. & Kramer A. F. (2009). The effect of acute treadmill walking on cognitive control and academic achievement in pre-adolescent children. Neuroscience, 159(3), 1044-1054.
  • Howie E. K. & Pate R. R. (2012). Physical activity and academic achievement in children: A historical perspective. Journal of Sport and Health Science, 1(3), 160-169. International Journal of Psychology and Educational Studies 2021, 8(2), 148-157
  • Hraste M., De Giorgio A., Jelaska P. M., Padulo J. & Granić I. (2018). When mathematics meets physical activity in the school-aged child: The effect of an integrated motor and cognitive approach to learning geometry. PLoS One, 13(8), e0196024.
  • Jones M. B. (2013). The home advantage in individual sports: An augmented review. Psychology of Sport and Exercise, 14(3), 397-404.
  • Kalaycı N. (2001). Sosyal bilgilerde problem çözme ve uygulamalar. Gazi Kitabevi.
  • Kalaycı Ş. (2006). SPSS Uygulamalı Çok değişkenli İstatistik Teknikleri. Dinamik Akademi Yayınları.
  • Karasar N. (2009). Bilimsel Araştırma Yöntemleri. Nobel Yayınları.
  • Kazancı O. (1989). Eğitimde eleştirici düşünme ve öğretimi. Ankara: Kazancı Hukuk Yayınları.
  • Küçük V. & Koç H. (2004). Relationship between human and sports in psychosocial develpoment process. Dumlupinar University Journal of Social Sciences, (9).
  • Lubans D. R., Beauchamp M. R., Diallo T. M., Peralta L. R., Bennie A., White R. L. & Lonsdale C. (2018). School physical activity intervention effect on adolescents’ performance in mathematics. Med Sci Sports Exerc, 50(12), 2442-50.
  • McNaughten D. & Gabbard C. (1993). Physical exertion and immediate mental performance of sixth-grade children. Perceptual and Motor Skills, 77(3_suppl): 1155-1159. Mullender-Wijnsma M. J., Hartman E., de Greeff J. W., Doolaard S., Bosker R. J. & Visscher C. (2016). Physically active math and language lessons improve academic achievement: a cluster randomised controlled trial. Pediatrics, 137(3).
  • National Council of Teachers of Mathematics (NCTM). (1989). Curriculum and evaluation standards for school mathematics. Reston: Virginia: NCTM.
  • Önal H., İnan M. & Bozkurt S. (2018). Analysis of mathematical thinking skills of sportsmen according to certain demographic characteristics. Journal of Education and Training Studies, 6(9), 191-198.
  • Önal H., İnan M. & Bozkurt S. (2017). A research on mathematical thinking skills: Mathematical thinking skills of athletes in individual and team sports. Journal of Education and Training Studies, 5(9), 133-139.
  • Özbek O. & Ercan Ö. (2014). Development of the scale for measuring professional socialisation of physical education teachers. International Journal of Eurasia Social Sciences, 5(16), 80-93.
  • Özdemir N., Güreș A. & Güneș Ș. (2012). Relationship between problem-solving skills with the dominant intelligence of orienteering athletes. International Refereed Academic Social Sciences Journal, 3(2), 222-235.
  • Phillips D., Hannon J. C. & Castelli D. M. (2015). Effects of vigorous intensity physical activity on mathematics test performance. Journal of Teaching in Physical Education, 34(3), 346-362.
  • Rogoff B. (1990). Apprenticeship in thinking: Cognitive development in social context. Oxford university press.
  • Salar B., Hekim M. & Tokgöz M. (2012). To compare emotional state of individuals making team and individual sport 15-18 age group. Mehmet Akif Ersoy University Journal of Social Sciences Institute, (6), 123-135.
  • Sibley B. A. & Etnier J. L. (2003). The relationship between physical activity and cognition in children: a meta-analysis. Pediatric Exercise Science, 15(3), 243-256.
  • Singh J., Singh C. & Singh M. (2015). Mental skills: a comparison between volleyball and football players. International Multidisciplinary E-Journal, 4(3):122-128.
  • Sneck S., Viholainen H., Syväoja H., Kankaapää A., Hakonen H., Poikkeus A. M. & Tammelin T. (2019). Effects of school-based physical activity on mathematics performance in children: a systematic review. International Journal of Behavioural Nutrition and Physical Activity, 16(1), 109.
  • Sukmadewi T. S. (2014). Improving students’ mathematical thinking and disposition through probing and pushing questions. Jurnal Matematika Integratif ISSN, 1412, 6184.
  • Taşdan T. B., Çelik A. & Erduran A. (2013). Examining the opinions of pre-service mathematics teachers on mathematical thinking and developing students’ mathematical thinking. (Special Issue) Kastamonu Education Journal, 21(4), 1487-1504.
  • Tekin M. (2009). Comparison of Women – men sporty in terms of different intellegence level in individual and team sports’ branches. Jounal of Physical Education and Sport Sciences, 11(4).
  • Temel V. & Ayan V. (2015). A study about problem solving skills of physical education and sports teachers. KMÜ Journal of Social and Economic Research, 17(29), 70-76. Turkish Language Association. (2020). (updated 2020 Oct 11; cited 2020 Oct 11). Available from: http://www.tdk.gov.tr
  • Umay A. (1996). Mathematics education and measurement. Hacettepe University Journal of the Faculty of Education, 12, 145-149.
  • Yazıcıoğlu Y. & Erdoğan S. (2004). SPSS uygulamalı bilimsel araştırma yöntemleri. Detay Yayıncılık.
  • Yönal G. (2018). The investigation of the effect of darts sports' practice on the 4th grade primary school students' ability of the four operation. Unpublished Master’s Thesis. Bartın University, Bartın.
Yıl 2021, Cilt: 8 Sayı: 2, 148 - 157, 21.04.2021

Öz

Kaynakça

  • Akyüz E. T. & Gündüz K. A. A. (2019). Research on mathematıcal attıtudes of secondary school and hıgh school students interested in sports. Route Educational and Social Science Journal, 6(8), 141-157.
  • Arslantaş B., Malbeleği F. & İnan M. (2018). Examination of mathematical thinking skills of university students attending universities intercultural competition. Journal of Physical Education and Sports Studies, 10(2), 102-112.
  • Baroody A. J. (2003). The development of adaptive expertise and flexibility: The integration of conceptual and procedural knowledge. The development of arithmetic concepts and skills: Constructive adaptive expertise, 1-33.
  • Biltzer R. (2003). Thinking mathematically. New Jersey 07458;2003.
  • Canan F. & Ataoğlu A. (2010). The influence of sports on anxiety, depression, and perceived problem solving ability. Anatolian Journal of Psychiatry, 11(38), 38-43.
  • Castelli D. M., Hillman C. H., Buck S. M. & Erwin H. E. (2007). Physical fitness and academic achievement in third-and fifth-grade students. Journal of Sport and Exercise Psychology, 29(2), 239-252.
  • Certel Z., Çatıkkaş F. & Yalçınkaya M. (2011). Analysis of the Emotional Intelligence Levels and Critical Thinking Dispositions of Physical Education Teacher Candidates. Selçuk University Journal of Physical Education and Sport Science, 13(1), 74-81.
  • Cotton T. (2010). Understanding and teaching primary mathematics. Pearson Education Limited.
  • Çinkılıç İ. & Soyer F. (2013). An investigation the relation between multiple inteligence areas of pre-service physical education teacher and their problem-solving skills. Spor Yönetimi ve Bilgi Teknolojileri Dergisi, 8(1), 4-16.
  • Devlin K. (2010). Introduction to mathematical thinking. Keith Devlin.
  • Ellemberg D. & St-Louis-Deschênes M. (2010). The effect of acute physical exercise on cognitive function during development. Psychology of Sport and Exercise, 11(2), 122-126.
  • Elofsson J., Englund Bohm A., Jeppsson C. & Samuelsson J. (2018). Physical activity and music to support pre-school children’s mathematics learning. Education, 46(5), 483-493.
  • Ersoy E. & Başer N. E. (2013). The Development of Mathematical Thinking Scale. Kastamonu Education Journal, 21(4), 1471-1486.
  • Ersoy E. & Güner P. (2014). Mathematics Teaching and Mathematical Thinking. Journal of Research in Education and Teaching, 3(2), 102-112.
  • Esteban-Cornejo I., Tejero-Gonzalez C. M., Sallis J. F. & Veiga O. L. (2015). Physical activity and cognition in adolescents: A systematic review. Journal of Science and Medicine in Sport, 18(5), 534-539.
  • Ferri R. B. (2015). Mathematical thinking styles in school and across cultures. In Selected regular lectures from the 12th international congress on mathematical education (pp. 153-173). Springer, Cham.
  • Fox C. K., Barr‐Anderson D., Neumark‐Sztainer D. & Wall M. (2010). Physical activity and sports team participation: Associations with academic outcomes in middle school and high school students. Journal of School Health, 80(1), 31-37.
  • George D. & Mallery P. (2019). IBM SPSS statistics 26 step by step: A simple guide and reference. Routledge.
  • Gudmundsson J. & Horton M. (2017). Spatio-temporal analysis of team sports. ACM Computing Surveys (CSUR), 50(2), 1-34.
  • Have M., Nielsen J. H., Ernst M. T., Gejl A. K., Fredens K., Grøntved A. & Kristensen P. L. (2018). Classroom-based physical activity improves children’s math achievement–A randomised controlled trial. PloS one, 13(12), e0208787.
  • Hillman C. H., Erickson K. I. & Kramer A. F. (2008). Be smart, exercise your heart: exercise effects on brain and cognition. Nature Reviews Neuroscience, 9(1), 58-65.
  • Hillman C. H., Pontifex M. B., Raine L. B., Castelli D. M., Hall E. E. & Kramer A. F. (2009). The effect of acute treadmill walking on cognitive control and academic achievement in pre-adolescent children. Neuroscience, 159(3), 1044-1054.
  • Howie E. K. & Pate R. R. (2012). Physical activity and academic achievement in children: A historical perspective. Journal of Sport and Health Science, 1(3), 160-169. International Journal of Psychology and Educational Studies 2021, 8(2), 148-157
  • Hraste M., De Giorgio A., Jelaska P. M., Padulo J. & Granić I. (2018). When mathematics meets physical activity in the school-aged child: The effect of an integrated motor and cognitive approach to learning geometry. PLoS One, 13(8), e0196024.
  • Jones M. B. (2013). The home advantage in individual sports: An augmented review. Psychology of Sport and Exercise, 14(3), 397-404.
  • Kalaycı N. (2001). Sosyal bilgilerde problem çözme ve uygulamalar. Gazi Kitabevi.
  • Kalaycı Ş. (2006). SPSS Uygulamalı Çok değişkenli İstatistik Teknikleri. Dinamik Akademi Yayınları.
  • Karasar N. (2009). Bilimsel Araştırma Yöntemleri. Nobel Yayınları.
  • Kazancı O. (1989). Eğitimde eleştirici düşünme ve öğretimi. Ankara: Kazancı Hukuk Yayınları.
  • Küçük V. & Koç H. (2004). Relationship between human and sports in psychosocial develpoment process. Dumlupinar University Journal of Social Sciences, (9).
  • Lubans D. R., Beauchamp M. R., Diallo T. M., Peralta L. R., Bennie A., White R. L. & Lonsdale C. (2018). School physical activity intervention effect on adolescents’ performance in mathematics. Med Sci Sports Exerc, 50(12), 2442-50.
  • McNaughten D. & Gabbard C. (1993). Physical exertion and immediate mental performance of sixth-grade children. Perceptual and Motor Skills, 77(3_suppl): 1155-1159. Mullender-Wijnsma M. J., Hartman E., de Greeff J. W., Doolaard S., Bosker R. J. & Visscher C. (2016). Physically active math and language lessons improve academic achievement: a cluster randomised controlled trial. Pediatrics, 137(3).
  • National Council of Teachers of Mathematics (NCTM). (1989). Curriculum and evaluation standards for school mathematics. Reston: Virginia: NCTM.
  • Önal H., İnan M. & Bozkurt S. (2018). Analysis of mathematical thinking skills of sportsmen according to certain demographic characteristics. Journal of Education and Training Studies, 6(9), 191-198.
  • Önal H., İnan M. & Bozkurt S. (2017). A research on mathematical thinking skills: Mathematical thinking skills of athletes in individual and team sports. Journal of Education and Training Studies, 5(9), 133-139.
  • Özbek O. & Ercan Ö. (2014). Development of the scale for measuring professional socialisation of physical education teachers. International Journal of Eurasia Social Sciences, 5(16), 80-93.
  • Özdemir N., Güreș A. & Güneș Ș. (2012). Relationship between problem-solving skills with the dominant intelligence of orienteering athletes. International Refereed Academic Social Sciences Journal, 3(2), 222-235.
  • Phillips D., Hannon J. C. & Castelli D. M. (2015). Effects of vigorous intensity physical activity on mathematics test performance. Journal of Teaching in Physical Education, 34(3), 346-362.
  • Rogoff B. (1990). Apprenticeship in thinking: Cognitive development in social context. Oxford university press.
  • Salar B., Hekim M. & Tokgöz M. (2012). To compare emotional state of individuals making team and individual sport 15-18 age group. Mehmet Akif Ersoy University Journal of Social Sciences Institute, (6), 123-135.
  • Sibley B. A. & Etnier J. L. (2003). The relationship between physical activity and cognition in children: a meta-analysis. Pediatric Exercise Science, 15(3), 243-256.
  • Singh J., Singh C. & Singh M. (2015). Mental skills: a comparison between volleyball and football players. International Multidisciplinary E-Journal, 4(3):122-128.
  • Sneck S., Viholainen H., Syväoja H., Kankaapää A., Hakonen H., Poikkeus A. M. & Tammelin T. (2019). Effects of school-based physical activity on mathematics performance in children: a systematic review. International Journal of Behavioural Nutrition and Physical Activity, 16(1), 109.
  • Sukmadewi T. S. (2014). Improving students’ mathematical thinking and disposition through probing and pushing questions. Jurnal Matematika Integratif ISSN, 1412, 6184.
  • Taşdan T. B., Çelik A. & Erduran A. (2013). Examining the opinions of pre-service mathematics teachers on mathematical thinking and developing students’ mathematical thinking. (Special Issue) Kastamonu Education Journal, 21(4), 1487-1504.
  • Tekin M. (2009). Comparison of Women – men sporty in terms of different intellegence level in individual and team sports’ branches. Jounal of Physical Education and Sport Sciences, 11(4).
  • Temel V. & Ayan V. (2015). A study about problem solving skills of physical education and sports teachers. KMÜ Journal of Social and Economic Research, 17(29), 70-76. Turkish Language Association. (2020). (updated 2020 Oct 11; cited 2020 Oct 11). Available from: http://www.tdk.gov.tr
  • Umay A. (1996). Mathematics education and measurement. Hacettepe University Journal of the Faculty of Education, 12, 145-149.
  • Yazıcıoğlu Y. & Erdoğan S. (2004). SPSS uygulamalı bilimsel araştırma yöntemleri. Detay Yayıncılık.
  • Yönal G. (2018). The investigation of the effect of darts sports' practice on the 4th grade primary school students' ability of the four operation. Unpublished Master’s Thesis. Bartın University, Bartın.
Toplam 50 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Alan Eğitimleri
Bölüm Research Article
Yazarlar

Nedim Tekin Bu kişi benim 0000-0002-6249-3862

İbrahim Kepceoğlu Bu kişi benim 0000-0002-5772-0987

Aysun İpekoğlu Bu kişi benim 0000-0001-9738-0692

Alpay Bülbül Bu kişi benim 0000-0002-9636-4735

Yayımlanma Tarihi 21 Nisan 2021
Yayımlandığı Sayı Yıl 2021 Cilt: 8 Sayı: 2

Kaynak Göster

APA Tekin, N., Kepceoğlu, İ., İpekoğlu, A., Bülbül, A. (2021). Analysis of the Mathematical Thinking Levels of Individual and Team Athletes in Terms of Different Variables. International Journal of Psychology and Educational Studies, 8(2), 148-157.