The purpose of this study was to describe students' communication in solving prime factors using written and oral communication. This study uses a qualitative and descriptive approach. The subjects of this study were 46 seventh grade students of Simanjaya Lamongan, East Java, Indonesia, Middle School who had obtained prime factor material. Data analysis was obtained by using a test of prime factors and interviews. Based on the results of data analysis, it was concluded that: 1) Written communication, as many as 40 students were able to communicate in writing with a percentage of 87% and 6 students were unable to communicate in writing with a percentage of 13%; 2) Oral communication, at this stage interviews were conducted by taking the subject as many as two students taken from one student who is able to communicate in writing and one student who is not able to communicate in writing, the results obtained that students are able to communicate in writing are also able to communicate verbally. verbally, while students who are not able to communicate in writing, it turns out that students are able to communicate orally. From the explanation above, it can be concluded that students are able to explain concepts into mathematical language, students are able to explain mathematical arithmetic operations, students are able to explain mathematical solutions and students are able to convey ideas or opinions. Thus, students can communicate in writing and orally well in solving prime factors.

Representasi verbal; Komunikasi; Faktor Prima

Adu-Gyamfi, K. (2003). External multiple representations in mathematics teaching. North Carolina State University.

Arcavi, A. (2003). The role of visual representations in the learning of mathematics. Educational Studies in Mathematics, 52(3), 215-241.

As'ari, A. R. (2009). Representasi: Pentingnya dalam Pembelajaran Matematika. Jurnal Matematika, 7(2), 81-91.

Baroody. A. J (1993). Problem Solving, Reasoning, and Comunnicating, K-8 Helping Children Think Mathematically. New York: Macmillan Publishsing Company.

Bartell, T. G., Webel, C., Bowen, B., & Dyson, N. (2013). Prospective teacher learning: recognizing evidence of conceptual understanding. Journal of Mathematics Teacher Education, 16, 57–79. https://doi.org/10.1007/s10857-012-9205-4

Boonen, J. H. A., Wesel, F. V., Jolles, J., & Schoot, M. V. D. (2014). The Role of Visual Representation Type, Spatial Ability, and Reading Comprehension in Word Problem Solving: An Item-Level Analysis in Elementary School Children. International Journal of Educational Research, 68, 15-26. https://doi.org/10.1016/j.ijer.2014.08.001

Burkhart, J. (2009). Building numbers from primes. Mathematics Teaching in the Middle School, 15(3), 156-167.

ÇELİK, D., & Arslan, A. S. (2012).The Analysis of Teacher Candidates’ Translating Skills in Multiple Representations. Elementary Education Online, 11(1), 239-250.

Cooney, T. J. (1999). Conceptualizing teachers’ ways of knowing. Educational Studies in Mathematics, 38, 163-187. https://doi.org/10.1023/A:1003504816467

Cresswell, J. W. ( 2009). Research Design: Qualitative, quantitative, and mixed methods approaches. London: SAGE Publications Ltd.

Diezmann, C., & English, L., (2001). Promoting the use of diagrams as tools for thinking. In A. Cuoco (Ed.), The roles of representation in school mathematics. 2001 Yearbook of the National Council of Teachers of Mathematics (pp. 77-89). Reston, VA: National Council of Teachers of Mathematics.

Dündar, S. (2015). Mathematics Teacher-Candidates Performance in Solving Problem with Different Representation Style: The Trigonometry Example. Eurasia Journal of Mathematics, Science & Technology Education, 11(6), 1379-1397. https://doi.org/10.12973/eurasia.2015.1396a

Hoogland, K., de Koning, J., Bakker, A., Pepin, B. E. U., & Gravemeijer, K. (2018). Changing representation in contextual mathematical problems from descriptive to depictive: The effect on students’ performance. Studies in Educational Evaluation, 58(April), 122–131. https://doi.org/10.1016/j.stueduc.2018.06.004

Hussien, A. M. (2018). Culture of Traits in Arabic Language Education: Students’ Perception of the Communicative Traits Model. International Journal of Instruction, 11(4), 467-484. https://doi.org/10.12973/iji.2018.11429

Hwang, W.-Y., Chen, N.-S., Dung, J.-J., & Yang, Y.-L. (2007). Multiple Representation Skills and Creativity Effects on Mathematical Problem Solving using a Multimedia Whiteboard System. Educational Technology & Society, 10(2), 191-212.

Jordan, R. F., (2016). Strengthen Elementary Students’ Understanding Of Factors. Undergraduate Theses and Professional Papers. 25. https://scholarworks.umt.edu/utpp/25.

Kemendikbud. (2013). Permendikbud No.81A tentang Implementasi Kurikulum Lampiran 10. Jakarta: Departemen Pendidikan dan Kebudayaan.

Kohnle, A., & Passante, G. (2017). Characterizing representational learning: A combined simulation and tutorial on perturbation theory. Physical Review Physics Education Research, 13(2), 020131. DOI: 10.1103/PhysRevPhysEducRes.13.020131.

Mathematical Theory of Communication

Murat, G., & Funda, Y. H. (2016). Modal Representations and their Role in the Learning Process: A Theoretical and Pragmatic Analysis. Educational Sciences: Theory & Practice, 16(1).109-126. DOI 10.12738/estp.2016.1.0054.

NCTM. (2000). Principles and Standards for School Mathematics. United States of America: The National Council of Teachers of Mathematics, Inc.

Ningsih, S. K., Narahara, S., & Mulyono, H. (2018). An Exploration of Factors Contributing to Students’ Unwillingness to Communicate in a Foreign Language across Indonesian Secondary Schools. International Journal of Instruction, 11(4), 811-824. https://doi.org/10.12973/iji.2018.11451

Prain, V., & Waldrip, B. (2006). An exploratory study of teachers’ and students’ use of multi-modal representations of concepts in primary science. International Journal of Science Education, 28, 1843–1866.

Rahmad, B. A., & Dwi, R. (2017). Symbolic and Verbal Representation Process of Student in Solving Mathematics Problem Based Polya’s Stages. Journal International Education Studies, 10(10), 20-28. https://doi.org/10.5539/ies.v10n10p20

Reynolds, J. A., Thaiss, C., Katkin, W., Robert, J., & Thompson, J. (2012). Writing-to-learn in undergraduate science education: A community-based, conceptually driven approach. CBE Life Sciences Education, 11(1), 17-25.

Rogers, E. M., & Rekha A. R. (1976). Communication In Organization. New York: The Free Press.

Roscoe, M. & Feldman Z. (2015). Strengthening prospective elementary teachers’ understanding of factors. In Che, S. M. and Adolphson, K. A. (Eds.). Proceedings for the 42nd Annual Meeting of the Research Council on Mathematics Learning. Las Vegas, NV.

Saavedra, A. R., & Opfer, V. D. (2012). Teaching and learning 21st century skills: Lessons from the learning sciences. London: RAND Corporation.

Severin, W. J. (2005). Teori komunikasi: Sejarah, metode, dan terapan di dalam media massa. Jakarta: Kencana.

Shannon, C. E. & Weaver, W. (1949).

Shannon, C. E., & Weaver, W. (1949). The Mathematical Theory of Communication. Urbana, IL: University of Illinois Press.

Solso, R. L., Maclin, O. H., & Maclin, M. K. (2008). Psikologi Kognitif. Jakarta: Erlangga.

Sugiyono. (2012). Memahami Penelitian Kualitatif. Bandung: Alfabeta.

Sukiyanto, S. (2020). Munculnya Kesadaran Metakognisi Dalam Menyelesaikan Masalah Matematika. Aksioma: Jurnal Program Studi Pendidikan Matematika, 9(1), 126-132.

The

Urbana, IL: University of Illinois Press.

Utami, A. D., Sa'dijah, C., Subanji, & Irawati, S.. (2019). Students' Pre-Initial Mental Model: The Case of Indonesian First-Year of College Students. International Journal of Instruction, 12(1), 1173-1188. https://doi.org/10.29333/iji.2019.12175a

van de Walle, J. A., Karp, K. S., & Bay-Williams, J. M. (2008). Elementary and middle school mathematics, teaching developmentally. USA: Pearson.

Wagner, T. (2008). The global achievement gap: Why even our best schools don’t teach the new survival skills our children need-and what we can do about it. New York, NY: Basic Books.

Wildan, W., Hakim, A., Siahaan, J., & Anwar, Y. A. S. (2019). A Stepwise Inquiry Approach to Improving Communication Skills and Scientific Attitudes on a Biochemistry Course. International Journal of Instruction, 12(4), 407-422. https://doi.org/10.29333/iji.2019.12427a

Yaniawati, R. P., Kartasasmita, B. G, Kariadinata, R., & Sari, E. (2017). Accelerated learning method using Edmodo to increase students' mathematical connection and selfregulated learning. In Proceedings of the 2017 International Conference on Education and Multimedia (pp. 53-57). Singapore: ACM.

Zazkis, R., & Gadowsky, K. (2001). Attending to transparent features of opaque representations of natural numbers. In A. A. Cuoco & F. R. Curcio (Eds.), Roles of representation in school mathematics: 2001 yearbook (pp. 44-52). Reston, VA: NCTM.

Zazkis, R., & Liljedahl, P. (2004). Understanding Primes: The Role of Representation. Journal for Research in Mathematics Education, 35(3), 164-186.