Kompetensi Mahasiswa dalam Mata Kuliah Pemodelan Matematika Berbasis Pengembangan Soal

Authors

  • Elika Kurniadi Universitas Sriwijaya
  • Darmawijoyo Darmawijoyo Universitas Sriwijaya
  • Scristia Scristia Universitas Sriwijaya
  • Puji Astuti Universitas Maritim Raja Ali Haji

DOI:

https://doi.org/10.29408/jel.v5i1.1018

Keywords:

descriptive research, course based on development problem, pre service competence

Abstract

This study aims to generate a clear and comprehensive description of the students’ competence in the mathematical modeling courses after the lecturers are based on the design task. The students’ competence that will be measured in this research is the competence in constructing mathematical modeling that has been made. In this paper, we will deeply discuss for the competence in constructing mathematical modeling task and validating it. The method used is descriptive qualitative and the subject of this study were 23 students of the 2017/2018 academic year who took mathematics modeling courses. This research starts from the planning stage, namely the analysis of the study of mathematical modeling material, design and validation of research instruments. Furthermore, the implementation phase is taking observation data, interviews and field notes during lectures based on problem development. The last stage of the research is data analysis. The data collection techniques in this study were in the form of observations, interviews, and field notes. The results of this study were obtained descriptions of student competencies in constructing mathematical modeling problems and found misunderstanding of students in interpreting assumptions and variables in mathematical modeling.

References

Ang, K. C. (2006). Mathematical modeling, technology, and mathematics. The Mathematics Educator Association of Mathematics Educators, 33-47.

Bahmaei, F. (2011). Mathematical modeling in primary school, advantages, and challenges. Journal of Mathematical Modelling and Application, 3-13.

Blum, W., & Ferri, R.B. (2009). Mathematical Modelling: Can it be taught and learn? Journal of Mathematical Modelling and Application, 45-58.

Blum, W., & Niss, M. (1991). Applied mathematical problem solving, modeling, applications, and links to other subjects – state trends and issues in mathematics instruction. Educational Studies in Mathematics, 37–68. Crossref.

Blum, W., dkk. (2011). Trends in teaching and learning of mathematical modeling: ICTMA 14. London: Springer

Camberlin, S.A., & Coxbill, E. (2012). Using model-eliciting activities to introduce the upper elementary student to statistical reasoning and mathematical modeling. Diambil dari http://www.uwyo.edu/wisdome/_files/documents/chamberlin_coxbill.pdf

Cohen, Manion, & Morrison. (2007). Research methods in education. New York: Madison Avenue. Crossref.

COPAM & SIAM. (2016). GAIMME (Guidelines For Assesment & Instruction In Mathematical Modelling Education). USA: COPAM, Inc. & SIAM.

Darmawijoyo. (2006). Kompetensi matematika dalam perspektif matematika dan pengajarannya. Palembang: Eprint Unsri

Ebby, C. B. (2000). Learning to teach mathematics differently: The interaction between coursework and fieldwork for preservice teachers, Journal of Mathematics Teacher Education, 69-97. Crossref.

Eric, C. C. M (2009). Mathematical modeling as problem solving for children in the Singapore mathematics classrooms. Journal of Science Mathematics Education in Southeast Asia, 36-61.

Eric, dkk. (2015). A case study on developing a teacher’s capacity in mathematical modeling. The Mathematics Educator, 45-47.

Ferreira, L. H. D., & Jacobini, O. R. (2009). Mathematical modeling as problem solving for children in the Singapore mathematics classrooms. Journal of Science Mathematics Education in Southeast Asia, 32(1), 36-61.

Ng,K.E.D. (2013). Teacher readiness in mathematical modeling: Are there difference between pre-service and in-service teachers? In G. Stillman et al. (Eds.), Teaching mathematical modeling: to research and practice, 339-352.

Widjaya, W. (2013) Building Awareness of Mathematical modeling in Teacher Education: A Case Study in Indonesia. In Stillman, A.G., et al. Teaching Mathematical modeling: Connecting Research andPractice. 583-595.

Widyani M. (2010). evaluating teacher’ quality improvement policy in indonesia (to meet the UNESCO-EFA criteria). Tesis master, tidak diterbitkan, Delft University of Technology, Belanda.

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Published

31-01-2019

How to Cite

Kurniadi, E., Darmawijoyo, D., Scristia, S., & Astuti, P. (2019). Kompetensi Mahasiswa dalam Mata Kuliah Pemodelan Matematika Berbasis Pengembangan Soal. Jurnal Elemen, 5(1), 54–63. https://doi.org/10.29408/jel.v5i1.1018

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