Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2019, Cilt: 6 Sayı: 1, 1 - 18, 06.03.2019

Öz

Kaynakça

  • Artis, A. B. (2008). Improving marketing students’ reading comprehension with the SQ3R method. Journal of Marketing Education, 30(2), 130–137.Badura, A., Beck, A., Lazarus, H., Meichenbaum, D., Pavlov, I., & Wolpe, J. (2010). Cognitive-behavioral theories. Retrieved January 23, 2016, from https://goo.gl/jfFKlC
  • Berns, R. G., & Erickson, P. M. (2001). Contextual teaching and learning: Preparing students for the new economy (The Highlight Zone: Research @ Work No. 5). Louisville, KY: University of Louisville, National Research Center for Career and Technical Education.
  • Bringas, H. A. (2014). Localization -contextualization-slide share. Retrieved July 30, 2014, from www.slideshare.net/lenferndz/localization-contextualization
  • Brown, C. (2002). Contextual Intelligence (CI): The Key to Successful Consulting. Get Your Head In The Game. Retrieved from http://headinthegame.net/resources/library/contextual-intelligence-ci-the-key-to-successful-consulting/
  • Bruner, J. S. (1960). The growth of representational processes in childhood. In J. M. Anglin (Ed.), beyond the information given: Studies in the psychology of knowing (pp. 313–324). New York, NY: Norton.
  • Caldas, S., & Bankston, C. (2012, November 14). Effect of School Population Socioeconomic Status on Individual Academic Achievement. The Journal of Educational Research, 90(1997-5). doi:https://doi.org/10.1080/00220671.1997.10544583
  • Caverly, D. C., Nicholson, S. A., & Radcliffe, R. (2004). The effectiveness of strategic instruction for college developmental readers. Journal of College Reading and Learning, 35(1), 25–49.
  • Center for Occupational Research and Development (2012). What is contextualize teaching? Retrieved February 5, 2016, from http://www.cord.org/contextual-learning-definition/
  • Felder, R. M., & Spurlin, J. (2005). Applications, Reliability and Validity of the Index of Learning Styles. International Journal of Engineering Edition, 21(1), 103-112. Retrieved from https://wss.apan.org/jko/mls/Learning%20Content/ILS_Validation (IJEE).pdf
  • Flores, M. M. (2010). Using the concrete-representational-abstract sequence to teach subtraction with regrouping to students at risk for failure. Remedial and Special Education, 31(3), 195-207. doi: 10.1177/0741932508327467
  • Garfield, J., & Ahlgren, A. (1988). Difficulties in learning basic concepts in probability and statistics: Implications for research. Journal for Research in Mathematics Education, 19, 44-63.
  • Gauvain, M. (2001). The social context of cognitive development. New York, NY: The Guilford Press.
  • Hallden, O. (1999). Conceptual change and contextualization. In W. Schnotz, S. Vosniadou, & M. Carretero (Eds.), new perspectives on conceptual change (pp.53–65). Oxford: Elsevier.
  • Hughes, E. M. (2011). The Effects of the Concrete-Representational-Abstract Sequenced Instruction on Struggling Learners Acquisition, Retention and Self-efficacy of Fraction. (Dissertation) Graduate School of Clemson University
  • Jordan, L., Miller, M., & Mercer, C. D. (1998). The effects of concrete to semi-concrete to abstract instruction in the acquisition and retention of fraction concepts and skills. Learning Disabilities: A Multidisciplinary Journal, 9: 115–122.
  • Kraus, S. (2005). Research Paradigms and Meaning making: A Primer. The Qualitative Report.
  • Land, S.M. (2000). Cognitive requirements for learning in open-ended learning environments. Educational Technology Research and Development, 48, 61–78.
  • Lincoln, Y. S., & Guba, E. G. (2005). Naturalistic inquiry. Beverly Hills, CA: Sage.
  • Mei-Zhao, C., & Kuh, G. (2004, March). Adding Value: Learning Communities and Student Engagement. Springer Link, 45(2), 115-138. Retrieved from https://link.springer.com/article/10.1023/B:RIHE.0000015692.88534.de
  • Merriam, S. (1988). Case study research in education: A qualitative approach. San Francisco: Jossey-Bass.
  • Misquitta, R. (2011). Teaching Fractions to Middle-School Students Struggling in Mathematics: An Exploratory Study. (Doctoral Dissertation), University of Texas, USA
  • Misulis, K. E. (2009). Promoting learning through content literacy instruction. American Secondary Education 37(3), 10–19.
  • Moltz, D. (2010, November 11). Encouraging deep learning. Inside Higher Ed. Retrieved from http://www.insidehighered.com
  • Mouraz, A., & Leite, C. (2013). Putting knowledge in context: Curriculum contextualization in history classes. Transformative Dialogues: Teaching &
  • Nilsson, P., & Ryve, A. (2010). Focal event, contextualization, and effective communication in the classroom. Educational Studies in Mathematics, 74(3), 241–258.
  • Papaieronymou, I. (2009). Recommended Knowledge of Probability for Secondary Mathematics Teachers. Proceedings from Proceedings of CERME 6, Lyon, France.
  • Paris, D. (2011). Culturally sustaining pedagogy: A needed change in stance, terminology, and practice. Educational Researcher, 41(3), 93–97.
  • Perin, D. (2011). Facilitating student learning through contextualization. Community College Research Center.
  • Perin, D., & Charron, K. (2006). Lights just click on every day. In T. Bailey & V. S. Morest (Eds.), Defending the community college equity agenda (pp. 155–194). Baltimore, MD: Johns Hopkins University Press.
  • Philippine National Education Testing and Research Center. (2013). NAT Overview and 2012 Test Results. Retrieved January 7, 2016, from https://goo.gl/VJEDwk
  • Santoro, N. (2009). Teaching in culturally diverse contexts: what knowledge about “self” and “others” do teachers need? Journal of Education for Teaching, 35(1), 33–45.
  • Sfard, A. (1991). On the dual nature of mathematical conceptions: Reflections on processes and objects as different sides of the some coin. Educational Studies in Mathematics, 22, 1–36.
  • Special Connections, (2005). From concrete to representational to abstract. Retrieved January 9, 2015, from the Special Connections Web site: http://www.specialconnections.ku.edu/cgi-bin/cgiwrap/specconn/main.php?cat=instruction&subsection=math/cra.
  • Spring (2010). Realia and contextualization. Retrived on February 4, 2016 from http://gaining.educ.msu.edu/resources/node/422.
  • Stake, R. (2005). The art of case study research. Thousand Oaks, CA: Sage.
  • Sutherland, R. (1993). Connecting theory and practice: Results from the teaching of Logo. Educational Studies in Mathematics, 24, 95–113.
  • Thompson, P. W. (1994). Images of rate and operational understanding of the fundamental theorem of calculus. Educational Studies in Mathematics, 26, 229–274.
  • Tilson, J. L., Castek, J., & Goss, M. (2010). Exploring the influence of science writing instruction on fourth graders’ writing development. In R. T. Jimenez, V. J.
  • Risko, M. K. Hundley & D. W. Rowe (Eds.), 59th Yearbook of the National Reading Conference (pp. 117–134). Oak Creek, CA: National Reading Conference.
  • Tomlinson, C. A., Brigthon, C., Hertberg, H., Moon, T., Brimijoin, K., Conover, L., & Reynolds, T. (2003, December 1). Differentiating Instruction in Response to Students' Readiness, Interest and Learning Profile in Academically Diverse Classrooms: A Review of Literature. Journal for the Education of Gifted. Retrieved from http://journals.sagepub.com/doi/abs/10.1177/016235320302700203
  • Urdan, T., & Schoenfelder, E. (2006, October). Classroom effects on student motivation: Goal structures, social relationships, and competence beliefs. Journal of School Psychology, 44(5), 331-349. doi:https://doi.org/10.1016/j.jsp.2006.04.003
  • Vygotsky, L. S. (1978). Mind in society: The development of higher psychological processes. (M. Cole, V. John-Steiner, S. Scribner, & E. Souberman, Eds.) Cambridge, MA: Harvard University Press.
  • Witzel, B. S., Mercer, C. D., & Miller, M. D. (2003).Teaching algebra to students with learning difficulties: An investigation of an explicit instruction model. Learning Disabilities Research and Practice, 18, 121-131
  • Yagci, F. (2010). The Effect of Instruction with Concrete Models on Eight Grade Students' Probability Achievement and Attitudes toward Probability. (Thesis), Middle East Technical University, Turkey
  • Yin, R. K. (2003). Case study research: Design and method (3rd ed.). Thousand Oaks, CA: Sage.
  • Young, B. R., Hodge, A., Edwards, C. M., & Leising, J. G. (2012). Learning mathematics in high school courses beyond mathematics: Combating the need for post-secondary remediation in mathematics. Cambridge, MA: Harvard University Press.

Conception and Application of Contextualization in Mathematics Education

Yıl 2019, Cilt: 6 Sayı: 1, 1 - 18, 06.03.2019

Öz





Contextualization
is one of the keys of engaging the students in teaching-learning process
wherein the students can relate their situations on their lesson. It makes
the lesson meaningful and relevant to the students’ lives by relating the
students’ context to mathematical content taught in school.  This study covered the concepts and
practices of mathematics teachers on contextualization. Moreover, it dealt
with students’ conceptual understanding of contextualized lesson in Geometry.
The specific research design that was used in this study was a case study.
The participants of this study were the 25 teachers in the junior high school
public schools in the Philippines who have an experience in doing
contextualization on their classroom activities in teaching Geometry.
Specifically, five teachers were coming from Laguna, five from Quezon City,
ten from Rizal, and five from Pampanga. These teachers are either handling grade
seven mathematics or grade nine mathematics classes. Another participant of
this study were the students of each teacher participant to check the
contextualization practices of their teachers. A total of 25 students
underwent semi-structured interview about the way they learned from their
teacher’s activities with contextualization putting emphasis to the real life
application of Geometry. A semi-structured interview was used in this study
in order to have a clear view about the concept of junior public high school
mathematics teachers with regards to contextualization. Data were analyzed
through thematic coding wherein the transcripts were written into phrases and
related codes was grouped together. From the findings, math teachers have two
ideas of contextualization – about the student’s life and using local
materials or information. These ideas came from the reference materials,
internet and seminar-training conducted by DepEd which seen on their teaching
pedagogies. Lessons delivered effectively and efficiently if the math
teachers used available materials or information in the surrounding which
created better understanding of math concepts. Context on students’ lives
made the class lively and engaging where the students construct their own
meaning.


Kaynakça

  • Artis, A. B. (2008). Improving marketing students’ reading comprehension with the SQ3R method. Journal of Marketing Education, 30(2), 130–137.Badura, A., Beck, A., Lazarus, H., Meichenbaum, D., Pavlov, I., & Wolpe, J. (2010). Cognitive-behavioral theories. Retrieved January 23, 2016, from https://goo.gl/jfFKlC
  • Berns, R. G., & Erickson, P. M. (2001). Contextual teaching and learning: Preparing students for the new economy (The Highlight Zone: Research @ Work No. 5). Louisville, KY: University of Louisville, National Research Center for Career and Technical Education.
  • Bringas, H. A. (2014). Localization -contextualization-slide share. Retrieved July 30, 2014, from www.slideshare.net/lenferndz/localization-contextualization
  • Brown, C. (2002). Contextual Intelligence (CI): The Key to Successful Consulting. Get Your Head In The Game. Retrieved from http://headinthegame.net/resources/library/contextual-intelligence-ci-the-key-to-successful-consulting/
  • Bruner, J. S. (1960). The growth of representational processes in childhood. In J. M. Anglin (Ed.), beyond the information given: Studies in the psychology of knowing (pp. 313–324). New York, NY: Norton.
  • Caldas, S., & Bankston, C. (2012, November 14). Effect of School Population Socioeconomic Status on Individual Academic Achievement. The Journal of Educational Research, 90(1997-5). doi:https://doi.org/10.1080/00220671.1997.10544583
  • Caverly, D. C., Nicholson, S. A., & Radcliffe, R. (2004). The effectiveness of strategic instruction for college developmental readers. Journal of College Reading and Learning, 35(1), 25–49.
  • Center for Occupational Research and Development (2012). What is contextualize teaching? Retrieved February 5, 2016, from http://www.cord.org/contextual-learning-definition/
  • Felder, R. M., & Spurlin, J. (2005). Applications, Reliability and Validity of the Index of Learning Styles. International Journal of Engineering Edition, 21(1), 103-112. Retrieved from https://wss.apan.org/jko/mls/Learning%20Content/ILS_Validation (IJEE).pdf
  • Flores, M. M. (2010). Using the concrete-representational-abstract sequence to teach subtraction with regrouping to students at risk for failure. Remedial and Special Education, 31(3), 195-207. doi: 10.1177/0741932508327467
  • Garfield, J., & Ahlgren, A. (1988). Difficulties in learning basic concepts in probability and statistics: Implications for research. Journal for Research in Mathematics Education, 19, 44-63.
  • Gauvain, M. (2001). The social context of cognitive development. New York, NY: The Guilford Press.
  • Hallden, O. (1999). Conceptual change and contextualization. In W. Schnotz, S. Vosniadou, & M. Carretero (Eds.), new perspectives on conceptual change (pp.53–65). Oxford: Elsevier.
  • Hughes, E. M. (2011). The Effects of the Concrete-Representational-Abstract Sequenced Instruction on Struggling Learners Acquisition, Retention and Self-efficacy of Fraction. (Dissertation) Graduate School of Clemson University
  • Jordan, L., Miller, M., & Mercer, C. D. (1998). The effects of concrete to semi-concrete to abstract instruction in the acquisition and retention of fraction concepts and skills. Learning Disabilities: A Multidisciplinary Journal, 9: 115–122.
  • Kraus, S. (2005). Research Paradigms and Meaning making: A Primer. The Qualitative Report.
  • Land, S.M. (2000). Cognitive requirements for learning in open-ended learning environments. Educational Technology Research and Development, 48, 61–78.
  • Lincoln, Y. S., & Guba, E. G. (2005). Naturalistic inquiry. Beverly Hills, CA: Sage.
  • Mei-Zhao, C., & Kuh, G. (2004, March). Adding Value: Learning Communities and Student Engagement. Springer Link, 45(2), 115-138. Retrieved from https://link.springer.com/article/10.1023/B:RIHE.0000015692.88534.de
  • Merriam, S. (1988). Case study research in education: A qualitative approach. San Francisco: Jossey-Bass.
  • Misquitta, R. (2011). Teaching Fractions to Middle-School Students Struggling in Mathematics: An Exploratory Study. (Doctoral Dissertation), University of Texas, USA
  • Misulis, K. E. (2009). Promoting learning through content literacy instruction. American Secondary Education 37(3), 10–19.
  • Moltz, D. (2010, November 11). Encouraging deep learning. Inside Higher Ed. Retrieved from http://www.insidehighered.com
  • Mouraz, A., & Leite, C. (2013). Putting knowledge in context: Curriculum contextualization in history classes. Transformative Dialogues: Teaching &
  • Nilsson, P., & Ryve, A. (2010). Focal event, contextualization, and effective communication in the classroom. Educational Studies in Mathematics, 74(3), 241–258.
  • Papaieronymou, I. (2009). Recommended Knowledge of Probability for Secondary Mathematics Teachers. Proceedings from Proceedings of CERME 6, Lyon, France.
  • Paris, D. (2011). Culturally sustaining pedagogy: A needed change in stance, terminology, and practice. Educational Researcher, 41(3), 93–97.
  • Perin, D. (2011). Facilitating student learning through contextualization. Community College Research Center.
  • Perin, D., & Charron, K. (2006). Lights just click on every day. In T. Bailey & V. S. Morest (Eds.), Defending the community college equity agenda (pp. 155–194). Baltimore, MD: Johns Hopkins University Press.
  • Philippine National Education Testing and Research Center. (2013). NAT Overview and 2012 Test Results. Retrieved January 7, 2016, from https://goo.gl/VJEDwk
  • Santoro, N. (2009). Teaching in culturally diverse contexts: what knowledge about “self” and “others” do teachers need? Journal of Education for Teaching, 35(1), 33–45.
  • Sfard, A. (1991). On the dual nature of mathematical conceptions: Reflections on processes and objects as different sides of the some coin. Educational Studies in Mathematics, 22, 1–36.
  • Special Connections, (2005). From concrete to representational to abstract. Retrieved January 9, 2015, from the Special Connections Web site: http://www.specialconnections.ku.edu/cgi-bin/cgiwrap/specconn/main.php?cat=instruction&subsection=math/cra.
  • Spring (2010). Realia and contextualization. Retrived on February 4, 2016 from http://gaining.educ.msu.edu/resources/node/422.
  • Stake, R. (2005). The art of case study research. Thousand Oaks, CA: Sage.
  • Sutherland, R. (1993). Connecting theory and practice: Results from the teaching of Logo. Educational Studies in Mathematics, 24, 95–113.
  • Thompson, P. W. (1994). Images of rate and operational understanding of the fundamental theorem of calculus. Educational Studies in Mathematics, 26, 229–274.
  • Tilson, J. L., Castek, J., & Goss, M. (2010). Exploring the influence of science writing instruction on fourth graders’ writing development. In R. T. Jimenez, V. J.
  • Risko, M. K. Hundley & D. W. Rowe (Eds.), 59th Yearbook of the National Reading Conference (pp. 117–134). Oak Creek, CA: National Reading Conference.
  • Tomlinson, C. A., Brigthon, C., Hertberg, H., Moon, T., Brimijoin, K., Conover, L., & Reynolds, T. (2003, December 1). Differentiating Instruction in Response to Students' Readiness, Interest and Learning Profile in Academically Diverse Classrooms: A Review of Literature. Journal for the Education of Gifted. Retrieved from http://journals.sagepub.com/doi/abs/10.1177/016235320302700203
  • Urdan, T., & Schoenfelder, E. (2006, October). Classroom effects on student motivation: Goal structures, social relationships, and competence beliefs. Journal of School Psychology, 44(5), 331-349. doi:https://doi.org/10.1016/j.jsp.2006.04.003
  • Vygotsky, L. S. (1978). Mind in society: The development of higher psychological processes. (M. Cole, V. John-Steiner, S. Scribner, & E. Souberman, Eds.) Cambridge, MA: Harvard University Press.
  • Witzel, B. S., Mercer, C. D., & Miller, M. D. (2003).Teaching algebra to students with learning difficulties: An investigation of an explicit instruction model. Learning Disabilities Research and Practice, 18, 121-131
  • Yagci, F. (2010). The Effect of Instruction with Concrete Models on Eight Grade Students' Probability Achievement and Attitudes toward Probability. (Thesis), Middle East Technical University, Turkey
  • Yin, R. K. (2003). Case study research: Design and method (3rd ed.). Thousand Oaks, CA: Sage.
  • Young, B. R., Hodge, A., Edwards, C. M., & Leising, J. G. (2012). Learning mathematics in high school courses beyond mathematics: Combating the need for post-secondary remediation in mathematics. Cambridge, MA: Harvard University Press.
Toplam 46 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Eğitim Üzerine Çalışmalar
Bölüm Araştırma Makalesi
Yazarlar

Joseph Reyes 0000-0001-5632-8898

Alvin O. Insorio Bu kişi benim 0000-0001-5632-8898

Ma. Lourdes V. Ingreso Bu kişi benim 0000-0001-5632-8898

Florabel F. Hilario Bu kişi benim 0000-0001-5632-8898

Chona R. Gutierrez Bu kişi benim 0000-0001-5632-8898

Yayımlanma Tarihi 6 Mart 2019
Yayımlandığı Sayı Yıl 2019 Cilt: 6 Sayı: 1

Kaynak Göster

APA Reyes, J., Insorio, A. O., Ingreso, M. L. V., Hilario, F. F., vd. (2019). Conception and Application of Contextualization in Mathematics Education. International Journal of Educational Studies in Mathematics, 6(1), 1-18.