Student Profile of Mathematical Communication Process of Prospective Mathematics Teachers Reviewed from Self-Confidence

Authors

  • Gunawan Gunawan Universitas Muhammadiyah Purwokerto
  • Ferry Ferdianto Universitas Swadaya Gunung Jati Cirebon
  • Reni Untarti Universitas Muhammadiyah Purwokerto
  • Lukmanul Akhsani Universitas Muhammadiyah Purwokerto

DOI:

https://doi.org/10.31980/mosharafa.v13i4.1958

Keywords:

Contextual Problems, Mathematical Communication Process, Self-Confidence, Kepercayaan Diri, Masalah Kontekstual, Proses Komunikasi Matematis

Abstract

Abstrak

Kepercayaan diri merupakan salah satu aspek afektif yang penting dalam meningkatkan komunikasi matematis. Penelitian ini bertujuan untuk menganalisis proses komunikasi matematis calon guru matematika dalam memecahkan masalah berdasarkan kepercayaan diri. Metode yang digunakan adalah kualitatif. Subyek penelitian adalah mahasiswa Pendidikan Matematika, Universitas Muhammadiyah Purwokerto. Instrumen penelitian terdiri dari angket, tes, dan wawancara. Hasil angket kepercayaan diri dikategorikan dalam tinggi, sedang, dan rendah. Setiap kategori mengambil satu orang sebagai responden. Analisis data menggunakan tahap reduksi, penyajian, dan kesimpulan. Hasil penelitian menunjukkan siswa kategori kepercayaan diri tinggi dan sedang memiliki karakteristik proses komunikasi yang baik. Siswa menggunakan simbol dengan tepat untuk menjelaskan informasi dan masalah yang diketahui serta menuliskan jawaban secara terperinci. Siswa kategori kepercayaan diri rendah membutuhkan bantuan untuk menerjemahkan informasi dan simbol matematika. Hal ini mengakibatkan kesulitan dalam menyelesaiakan masalah dengan tepat. Kondisi ini menunjukkan bahwa tahap identifikasi informasi dan representasi masalah sebagai kunci awal proses komunikasi matematika.

Abstract

Self-confidence is one of the important affective aspects in improving mathematical communication. This study aims to analyze the mathematical communication process of prospective mathematics teachers in solving problems based on confidence. The method used is qualitative. The subject of the study is a student of Mathematics Education, Universitas Muhammadiyah Purwokerto. The research instrument consisted of questionnaires, tests, and interviews. The results of the confidence questionnaire are categorized into high, medium, and low. Each category takes one person as a respondent. Data analysis uses reduction, presentation, and conclusion stages. The results showed that students in the high and medium confidence categories had the characteristics of a good communication process. Students use symbols appropriately to explain known information and problems and write down answers in detail. Students in the low confidence category need help translating mathematical information and symbols. This results in difficulties in solving problems appropriately. This condition shows that the stage of information identification and problem representation is the initial key to the mathematical communication process.

References

Andriyani, M., Kartono, K., & Walid, W. (2022). Analysis of Mathematical Communication Ability based on Students’ Self-Esteem in CORE Learning with Positive Feedback. Unnes Journal of Mathematics Education Research, 11(2), 121-128.

Ashim, M., Asikin, M., & Kharisudin, I. (2020). Mathematics communication based on students’ self–efficacy in problem-based learning assisted by mobile learning. Unnes Journal of Mathematics Education Research, 9(2), 216-221.

Aulia, R., Rohati, R., & Marlina, M. (2021). The students' self-confidence and their mathematical communication skills in solving problems. Edumatika: Jurnal Riset Pendidikan Matematika, 4(2), 90-103.

Azhar, K., Ananda, S., Joni Wilson Sitopu, & Harahap, A. (2021). The influence of Peer Tutoring on Self Confidence and Mathematical Communication of Students on the Material Function. International Journal of Humanities Education and Social Sciences, 1(2), 1-6.

Chasanah, C., Riyadi, & Usodo, B. (2020). The effectiveness of learning models on written mathematical communication skills viewed from students' cognitive styles. European Journal of Educational Research, 9(2), 979-994.

Darling-Hammond, L., Flook, L., Cook Harvey, C., Barron, B., & Osher, D. (2020). Implications for educational practice of the science of learning and development. Applied Developmental Science, 24(2), 97–140.

Efwan, N. S., Afriansyah, E. A., Luritawaty, I. P., Arwadi, F., & Yadav, D. K. (2024). The Level of students' mathematical creative thinking skills as measured by their self-confidence. International Journal of Didactic Mathematics in Distance Education, 1(2), 125-136.

Fay, N., Babys, U., & Gella, N. J. M. (2022). Analysis of Students' Mathematical Communication Skills in Terms of Self-Confidence. IJHSS: International Journal of Humanities Education and Social Sciences, 1(5), 688-695.

Febriani, D., & Astuti, D. S. (2020). An Analysis on Students’self Confidence in Speaking Skill. JELTE: Journal of English Language Teaching and Education, 1(1).

Hanifah, Waluya, S. B., Rochmad, & Wardono. (2020). Mathematical Representation Ability and Self-Efficacy. In Journal of Physics: Conference Series, 1613(1).

Ismail, R. N., Yerizon, & Fauzan, A. (2023). Exploring Self-Regulated Learning and Their Impact on Students’ Mathematical Communication Skills on the Topic of Number Patterns with the Blended Learning System. Journal of Higher Education Theory and Practice, 23(16), 1-6.

Kamid, Rusdi, M., Fitaloka, O., Basuki, F. R., & Anwar, K. (2020). Mathematical Communication Skills Based on Cognitive Styles and Gender. International Journal of Evaluation and Research in Education, 9(4), 847-856.

Kiverstein, J., Rietveld, E., Slagter, H. A., & Denys, D. (2019). Obsessive compulsive disorder: A pathology of self-confidence? Trends In Cognitive Sciences, 23(5), 369–372.

Lestari, L., Maryati, I., Sundayana, R., & Afriansyah, E. A. (2022). Kajian literatur: Implementasi Realistic Mathematics Education (RME) pada kemampuan representasi matematis. Math Didactic: Jurnal Pendidikan Matematika, 8(1), 58-70.

Marzuki, Asih, E. C. M., & Wahyudin. (2019, October). Creative thinking ability based on learning styles reviewed from mathematical communication skills. In Journal of Physics: Conference Series, 1315(1).

Maspe, P. W., & Dassa, A. (2021, December). The Effect of Self-efficacy and Self-esteem on Students’ Mathematical Communication Skills. In International Conference on Educational Studies in Mathematics.

Minarti, E. D., & Wahyudin, W. (2019, December). How influential the mathematical disposition of mathematical communication skills is? (The evaluation of middle school students). In Journal of Physics: Conference Series, 1402(7).

Nafisah, H., Isnarto, I., & Wardono, W. (2021). Analysis of Mathematical Communication Ability in terms of Self Confidence in Schoology Assisted Treffinger Learning. Unnes Journal of Mathematics Education Research, 10(2), 195-201.

Nastiti, F. E., & Ni’mal‘Abdu, A. R. (2020). Kesiapan Pendidikan Indonesia Menghadapi Era Society 5.0. Jurnal Kajian Teknologi Pendidikan, 5(1), 61-66.

Paroqi, L. L., Malikussaleh, & Marhami. (2020). The Implementation of Realistic Mathematics Education Approach to Improve Students’ Mathematical Communication Ability in Statistics Course. International Journal for Educational and Vocational Studies, 2(10), 879–889.

Putri, M. O. V. U., Widianingtyas, S. I., & Yuliati, I. (2022). The Relationship between Self-Confidence Levels with Interpersonal Communication Skills in Students. Menara Journal of Health Science, 1(2), 125-136.

Putri, N. D., & Musdi, E. (2020). Analysis Of Students Initial Mathematical Communication Skills in Mathematics Learning. In Journal of Physics: Conference Series, 1554(1).

Rajagukguk, W., Bina, N. S., & Samosir, K. (2022). The Effect of Prior Knowledge, Emotional Intelligence and Motivation on Mathematical Communication. Education Quarterly Reviews, 5(4), 146-159.

Riawati, B., Dwidayati, N. K., & Rosyida, I. (2020). Mathematical Communication Ability Reviewed from Student’ s Self-Esteem on MiC Learning Process with Nuance of Jepara Culture. Unnes Journal of Mathematics Education Research, 9(1), 1-10.

Rohid, N., Suryaman, & Rusmawati, R. D. (2019). Students’ Mathematical Communication Skills (MCS) in Solving Mathematics Problems: A Case in Indonesian Context. Anatolian Journal of Education, 4(2), 19-30.

Setiyani, Putri, D. P., Ferdianto, F., & Fauji, S.H. (2020). Designing A Digital Teachingmodule Based on Mathematical Communication in Relation and Function. Journal on Mathematics Education, 11(2), 223–236.

Sukestiyarno, Y. L. (2020). Metode Penelitian Pendidikan. Semarang: UNNES Press.

Sulastri, E. (2023). Mathematical communication skills of junior high school students based on statistics. Jurnal Inovasi Pembelajaran Matematika: PowerMathEdu, 2(3), 373-384.

Sumarmo, U., Rohaeti, E. E., & Hendriana, H. (2021). Hard Skills dan Soft Skills Matematika Siswa. Bandung: PT. Refika Aditama

Tahmir, S., Sahid, S., & Erjun, D. (2022). The Description of Student's Mathematical Communication Skills in Solving Circle Problems in Term of Learning Style. SAINSMAT: Journal of Applied Sciences, Mathematics, and Its Education, 11(2), 63-72.

Tong, D. H., Uyen, B. P., & Quoc, N. V. A. (2021). The improvement of 10th students' mathematical communication skills through learning ellipse topics. Heliyon, 7(11), 1-12.

Tyas, N. S. C., Agoestanto, A., & Asih, T. S. N. (2022). Students' Mathematical Communication Ability Judging from Self-Confidence and Cognitive Style in Missouri Mathematics Project Learning with Fast Feedback. Unnes Journal of Mathematics Education Research, 11(2), 183-191.

Ulfa, N. C. A., & Sundayana, R. (2022). Kemampuan Representasi Matematis Siswa pada Materi Bilangan Berdasarkan Self-Confidence. Jurnal Inovasi Pembelajaran Matematika: Powermathedu, 1(2), 193–200.

Yulianti, Y. A., & Wulandari, D. (2021). Flipped Classroom: Model Pembelajaran untuk Mencapai Kecakapan Abad 21 Sesuai Kurikulum 2013. Jurnal Kependidikan: Jurnal Hasil Penelitian Dan Kajian Kepustakaan Di Bidang Pendidikan, Pengajaran Dan Pembelajaran, 7(2), 372.

Yusuf, I., Zb, A., & Rozal, E. (2022). The Understanding Mathematical Communication Concepts and Skills: Analysis of the Ability of Prospective Physics Teachers?. International Journal of Education and Teaching Zone, 1(2), 97-105.

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Published

2024-10-30

How to Cite

Gunawan, G., Ferdianto, F., Untarti, R., & Akhsani, L. (2024). Student Profile of Mathematical Communication Process of Prospective Mathematics Teachers Reviewed from Self-Confidence. Mosharafa: Jurnal Pendidikan Matematika, 13(4), 1019–1034. https://doi.org/10.31980/mosharafa.v13i4.1958

Issue

Vol. 13 No. 4 (2024): October

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