UPSI Digital Repository (UDRep)
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Abstract : Universiti Pendidikan Sultan Idris |
Nowadays, students have trouble solving word puzzles, even though they are trained to conduct another mathematical activity. The primary purpose of this study was to enhance the students’ ability to solve word problems. A questionnaire was used as a data-gathering tool, and the descriptive survey-correlational design was used. The data were treated using frequencies, ratios, weighted mean, and correlation analysis. The research sample consisted of 286 high school students from the University of La Salette, Incorporated in Santiago City. The majority of students are female, and took ABM as their strand. The findings of the study showed that choosing/writing an appropriate equation and performing it in a given problem affects most students’ ability to solve word problems. Moreover, the results showed that students were not sure of what they will feel when they encounter a complicated word problem. Furthermore, the study implies that their teachers did not allow them to use different strategies in solving word problems. Correlation analysis revealed that the different factors such as understanding word problems; attitudes of the students towards solving word problems; prior knowledge about the basic concept of math; and Teacher’s instructional techniques are highly and positively correlated to one another. The results imply that the teachers should be encouraged and be familiarized in using digital teaching methods and other significant emerging mathematics teaching and learning developments.
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[1] Moschkovich, J. (2012). Mathematics, the Common Core, and language: Recommendations for JOURNAL OF TEACHER ACTION RESEARCH [2] Yip, E. S. K., Wong, T. T. Y., Cheung, S. H., & Chan, K. K. W. (2020). Do children with mathematics learning disability in Hong Kong perceive word problems differently? Learning and Instruction, 68, 101352. [3] Hoogland, K., de Koning, J., Bakker, A., Pepin, B. E., & Gravemeijer, K. (2018). Changing representation in contextual mathematical problems from descriptive to depictive: The effect on students’ performance. Studies in Educational Evaluation, 58, 122-131. [4a] Eric, C. C. M. (2008). Using model-eliciting activities for primary mathematics classrooms. The Mathematics Educator, 11(1/2), 47-66. [4b] Boonen, A. J., de Koning, B. B., Jolles, J., & van der Schoot, M. (2016). Word problem solving in contemporary math education: A plea for reading comprehension skills training. Frontiers in psychology, 7, 191. [5a] Lew, M. D., Alwis, W. A. M., & Schmidt, H. G. (2010). Accuracy of students' self‐assessment and their beliefs about its utility. Assessment & Evaluation in Higher Education, 35(2), 135-156. [5b] Wismath, S., Orr, D., & Zhong, M. (2014). Student perception of problem-solving skills. Transformative Dialogues: Teaching and Learning Journal, 7(3). [6] Rukavina, S. (2019). Preservice mathematics teachers and teacher research. Towards new perspectives on mathematics education, 261. [7a] Akbasli, S., Sahin, M., & Yaykiran, Z. (2016). The Effect of Reading Comprehension on the Performance in Science and Mathematics. Journal of Education and Practice, 7(16), 108-121. [7b] Collins, A., Brown, J. S., & Newman, S. E. (2018). Cognitive apprenticeship: Teaching the crafts of reading, writing, and mathematics (pp. 453-494). Routledge. [8] Carrillo-Yañez, J., Climent, N., Montes, M., Contreras, L. C., Flores-Medrano, E., Escudero-Ávila, D., ... & Muñoz-Catalán, M. C. (2018). The mathematics teacher’s specialised knowledge (MTSK) model. Research in Mathematics Education, 20(3), 236-253. [9] Powell, S. R., Driver, M. K., Roberts, G., & Fall, A. M. (2017). An analysis of the mathematics vocabulary knowledge of third-and fifth-grade students: Connections to general vocabulary and mathematics computation. Learning and Individual Differences, 57, 22-32. [10] Wang, L., Wang, Y., Cai, D., Zhang, D., & Liu, X. (2018). Translating a math word problem to an expression tree. arXiv preprint arXiv:1811.05632. [11] Barwell, R. (2018). From language as a resource to sources of meaning in multilingual mathematics classrooms. The Journal of Mathematical Behavior, 50, 155-168. [12] Powell, S. R., & Driver, M. K. (2015). The influence of mathematics vocabulary instruction embedded within addition tutoring for first-grade students with mathematics difficulty. Learning Disability Quarterly, 38(4), 221-233. [13] Riccomini, P. J., Smith, G. W., Hughes, E. M., & Fries, K. M. (2015). The language of mathematics: The importance of teaching and learning mathematical vocabulary. Reading & Writing Quarterly, 31(3), 235-252. [14] Riccomini, P. J., Smith, G. W., Hughes, E. M., & Fries, K. M. (2015). The language of mathematics: The importance of teaching and learning mathematical vocabulary. Reading & Writing Quarterly, 31(3), 235-252. [15] García, T., Rodríguez, C., González-Castro, P., González-Pienda, J. A., & Torrance, M. (2016). Elementary students’ metacognitive processes and post-performance calibration on mathematical problem-solving tasks. Metacognition and Learning, 11(2), 139-170. [16] Wolters, C. A., & Hussain, M. (2015). Investigating grit and its relations with college students’ self-regulated learning and academic achievement. Metacognition and Learning, 10(3), 293-311. [17] Attard, C. (2012). Engagement with mathematics: What does it mean and what does it look like? Australian Primary Mathematics Classroom, 17(1), 9–12. [18] Ingram, N. (2015). Students’ relationships with mathematics: Affect and identity. In M. Marshman, V. Geiger, & A. Bennison (Ed.), Mathematics education in the margins (Proceedings of the 38th annual conference of the Mathematics Education Research Group of Australasia) (pp. 301–308). Sunshine Coast, Australia: MERGA [19] Mensah, J. K., Okyere, M., & Kuranchie, A. (2013). Student attitude towards mathematics and performance: Does the teacher attitude matter? Journal of Education and Practice, 4(3), 132–139. [20] Di Martino, P., & Zan, R. (2015). The construct of attitude in mathematics education. In From beliefs to dynamic affect systems in mathematics education (pp. 51-72). Springer, Cham. [21] Maio, G. R., Haddock, G., & Verplanken, B. (2018). The psychology of attitudes and attitude change. Sage. [22] Dede, Y. (2019). Why mathematics is valuable for Turkish, Turkish immigrant and German students? A crosscultural study. In Values and valuing in mathematics education (pp. 143-156). Springer, Cham. [23] Kibrislioglu, N. (2015). An investigation about 6th grade students’ attitudes towards mathematics. Procedia-Social and Behavioral Sciences, 186, 64-69. [24] Yilmaz, C., Altun, S. A. & Ollkun, S. (2010). Factors affecting students‟ attitude towards math: ABC theory and its reflection on practice. Procedia Social Science and Behavioural Sciences, 2, 4502-4506. [25] Arulmoly, C., & Branavan, A. (2017). The impact of academic motivation on student’s academic achievement and learning outcomes in mathematics among secondary school students in Paddiruppu Educational Zone in The Batticaloa District, Sri Lanka. International Journal of Scientific and Research Publications, 7(5), 115-126. [26] Manoah, S. A., Indoshi, F.C., & Othuon, L.A. (2011). Influence of Attitude on Performance of Students in Mathematics Curriculum. Educational Research Vol. 2(3) pp. 965-981. International Research Journals. Retrieved from http://www.interesjournals.org/ER [27] Mohd, N., Mahmood, T. F. P. T., & Ismail, M. N. (2011). Factors that influence students in mathematics achievement. International Journal of Academic Research, 3(3),49-54 [28] Andamon, J., & Tan, D. A. (2018). Conceptual understanding, attitude and performance in mathematics of grade 7 students. International Journal of Scientific & Technology Research, 7(8), 96-105. [29] Petr, J., Papáček, M., & Stuchlíková, I. (2018). The Biology Olympiad as a Resource and Inspiration for Inquiry-Based Science Teaching. In Professional Development for Inquiry-Based Science Teaching and Learning (pp. 205-222). Springer, Cham. [30] Warren-Findlow, J., Seymour, R. B., & Huber, L. R. B. (2012). The association between self-efficacy and hypertension self-care activities among African American adults. Journal of community health, 37(1), 15-24. [31] Martin, M., Laciste, G., & Concepcion, K. (2019). Prevalence of Modern Teaching Method among Senior High School Students. EDUCATUM Journal of Science, Mathematics and Technology, 6(1), 1-7. https://doi.org/10.37134/ejsmt.vol6.1.1.2019 [32] Kena, G., Musu-Gillette, L., Robinson, J., Wang, X., Rathbun, A., Zhang, J., ... & Velez, E. D. V. (2015). The Condition of Education 2015. NCES 2015-144. National Center for Education Statistics. [33] Pelayo III, J. M. G., Mallari, S. D. C., & Wong, A. B. (2017). Monitoring Influx of Senior High School Student Examinations. Online Submission. [34] Wright, Jerry Eugene (2014). An Investigation of Factors Affecting Student Performance in Algebraic Word Problem Solutions. Gardner-Webb University. [35] Desoete, A., & De Craene, B. (2019). Metacognition and mathematics education: An overview. ZDM, 51(4), 565-575. [36] Katrancı, Y., & Şengül, S. (2019). The relationship between middle school students’ attitudes towards mathematical problem-posing, attitudes towards mathematical problem-solving, and attitudes towards mathematics. Egitim ve Bilim, 44(197). [37] Kasmin, F., Othman, Z., & Syed Ahmad, S. S. (2019). Improving Students’ Perception Towards Learning Mathematics: Impact of Teaching Application of Mathematics. EDUCATUM Journal of Science, Mathematics and Technology, 6(1), 29-34. https://doi.org/10.37134/ejsmt.vol6.1.4.2019 [38] Kilpatrick, Jeremy (2010). Problem Solving in Mathematics. Columbia University, New York. [39] Mohammad, Seifi, Haghverdi, Majid and Azizmohamadi, Fatemeh (2012). Recognition of Students’ Difficulties in Solving Mathematical Word. Journal of Basic and Applied Scientific Research. TextRoad Publication. ISSN 2090-4304 [40] Kumari, Priya (2012). Problem Solving and Creative Thinking Ability among High School Children. Dharwad University Of Agricultural Sciences, Dharwad – 580 005 [41] Muhammad, Shahid F., and Syed, Zia U., (2008). Students’ Attitude towards Mathematics. Pakistan Economic and Social Review Volume 46, No. 1, pp. 75-83 [42] Walkington, C., Clinton, V., & Shivraj, P. (2018). How readability factors are differentially associated with performance for students of different backgrounds when solving mathematics word problems. American Educational Research Journal, 55(2), 362-414. [43] Abosalem, Yosuf (2015), Khalifa University Students’ Attitudes Towards mathematics in the light of variables such as Gender, nationality, mathematics score and the course they are attending., Educational Journal Volume 4 Issue 3, No. 3 pp 123-131. Doi;10:11648/j.edu.201540403.15 [44] Marchiş, Juliana (2013). The relation between Students’ Attitude towards Mathematics and Their Problem-Solving Skills. Journal of Science and Mathematics Education in S.E. Asia. Volume III, No. 2 [45] Zee, M., & Koomen, H. M. (2016). Teacher self-efficacy and its effects on classroom processes, student academic adjustment, and teacher well-being: A synthesis of 40 years of research. Review of Educational research, 86(4), 981-1015. [46] Pearce, Daniel L. (2010). What Teachers Say About Student Difficulties Solving Mathematical Word Problems in Grades 2-5. International Electronic Journal of Mathematics Education – IΣJMΣ Vol.8, No.1 [47] Andamon, J., & Tan, D. A. (2018). Conceptual understanding, attitude and performance in mathematics of grade 7 students. International Journal of Scientific & Technology Research, 7(8), 96-105.
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