The word and the etymological sense are two hints about effective use of language, about exploration techniques, and about developing representation of information. For example, the length and width of a rectangle are not about position, but a measurement or a quantity concept. Based on the example, an area problem which given a picture and the measurements is not mathematics problem. That is a language trajectory of representations or a problem of the etymological sense. When asked to find the perimeter of rectangle, but the two quantities are whole numbers and neither is divisible by 6, then, that is mathematics trajectory. However, if the area known, say 36 squares of a measure unit, then problem of getting the perimeter is to test or to check. That is also a kind of the etymological sense of meaning

Ahmed, W., Van der Werf, G., Kuyper, H., & Minnaert, A. (2013). Emotions, self-regulated learning, and achievement in mathematics: A growth curve analysis. Journal of Educational Psychology, 105, 150–161.

Aunola, K., Leskinen, E., Lerkkanen, M. K., & Nurmi, J. E. (2004). Developmental dynamics of math performance from preschool to Grade 2. Journal of Educational Psychology, 96, 699–713.

Ball, D.L., Thames, M.H., & Phelps, G. (2008). Content knowledge for teaching: What makes it special? The Journal of Teacher Education. 59(389).

Beckstead, J. W. (2012). Isolating and examining sources of suppression and multicollinearity in multiple linear regression. Multivariate Behavioral Research, 47, 224–246.

Benson, R., & Brack, C. (2009). Developing the scholarship of teaching: what is the role of e-teaching and learning?. Teaching in Higher Education, 14, 71-80.

Birkeland, M. S., Melkevik, O., Holsen, I., & Wold, B. (2012). Trajectories of global self-esteem development during adolescence. Journal of Adolescence, 35, 43–54.

Bleeker, M. M., & Jacobs, J. E. (2004). Achievement in math and science: Do mothers' beliefs matter 12 years later? Journal of Educational Psychology, 96, 97–109.

Bodovski, K., & Youn, M. J. (2010). Love, discipline and elementary school achievement: The role of family emotional climate. Social Science Research, 39, 585–595.

Bowers, A. J., & Sprott, R. (2012). Examining the multiple trajectories associated with dropping out of high school: A growth mixture model analysis. Journal of Educational Research, 105, 176–195.

Bronfenbrenner, U. (1986). Ecology of the family as a context for human development: Research perspectives. Developmental Psychology, 22, 723–742.

Byrnes, J. P. & Miller, D. C. (2007). The relative importance of predictors of math and science achievement: An opportunity–propensity analysis. Contemporary Educational Psychology, 32, 599–629.

Candy, P.C. (1991). Understanding individual nature of learning. Journal of Self-direction for Lifelong Learning: A Comprehensive Guide to Theory and Practice, 52(249).

Chiu, M.-S. (2012). Differential psychological processes underlying the skill-development model and self-enhancement model across mathematics and science in 28 countries. International Journal of Science and Mathematics Education, 10, 611–642.

Chiu, M.-S. (2019). An ecological approach to adolescent mathematics ability development: Differences in demographics, parenting, mathematics teaching, and student behaviors and emotions. https://doi.org/10.1080/03055698.2019.1672522

Chiu, M.-S., & Whitebread, D. (2011). Taiwanese teachers’ implementation of a new ‘constructivist mathematics curriculum’: How cognitive and affective issues are addressed. International Journal of Educational Development, 31, 196–206.

Cooney, T.J. (1985). A beginning teacher's view of problem solving. Journal for Research in Mathematics Education. 16(324).

Ernest, P. (1991). The Philosophy of Mathematics. Great Britain: Burges Science Press.

Gomez-Chacon, I. M. (2000). Affective influences in the knowledge of mathematics. Educational Studies in Mathematics, 43, 149–168.

Hanna, G. (1987). Instructional strategies and achievement in grade 8, Proceedings of 11th International Conference for the Psychology of Mathematics Education. Montreal, Canada.

Junco, R. & Cotten, S. R. (2012). No A 4 U: The relationship between multitasking and academic performance. Computers & Education, 59, 505–514.

Lan, Y. J., Chang, K. E., & Chen, N. S. (2012). CoCAR: An online synchronous training model for empowering ICT capacity of teachers of Chinese as a foreign language. Australasian Journal of Educational Technology, 28, 1020-1038.

Leder, G.C. (1994). Research in mathematics education-constraints on construction? In Bell G (Ed.) Challenges in mathematics education: Constraints on construction Proceedings of the 17th Annual Conference of Mathematics Education Research Group of Australasia, 1995. Lismore: MERGA.

Mason, J., Burton, L., & Stacey, K. (1996). Thinking mathematically. Essex: Addison-Wesley.

McLeod, D. B. (1994). Research on affect and mathematics learning in the JRME: 1970 to the present. Journal for Research in Mathematics Education, 25(6), 637–647.

Pehkonen, E. (1997). Teachers' conceptions of mathematics teaching Paper presented at the Current State of Research on Mathematical Beliefs Conference, 1998. Helsinki: University of Helsinki.

Peixoto, F., Sanches, C., Mata, L., & Monteiro, V. (2017). “How do you feel about math?”: relationships between competence and value appraisals, achievement emotions and academic achievement. European Journal of Psychology of Education, 32(3), 385–405.

Raymond, A. & Leinenbach, M. (2000). Collaborative Action Research on the Learning and Teaching of Algebra: A Story of One. Journal of Educational Studies in Mathematics. 41(283).

Reid, D. (1997). Constraints and opportunities in teaching provin. Paper presented at the 21st Annual meeting of the International Group for the Psychology of Mathematics Education, 1998. Lahti: Finland.

Mohamad Rifat. (1998). Analisis Tingkat Deduksi dan Rigoritas Susunan Bukti Mahasiswa Program Studi Pendidikan Matematika IKIP Malang [Unpublished master thesis]. IKIP Malang.

Mohamad Rifat. (2017). Filsafat pendidikan matematika [Philosophy of mathematics education]. Pontianak: UNU-Press.

Mohamad Rifat. (2018). The exploring of visual imagery: In their relation to the students’ mathematical identity. Journal of Higher Education Research, 5(75).

Mohamad Rifat, Rachmat Sahputra, Sugiatno, & Dede Suratman. (2019). A developing of analytic inequalities monograph based on students’ mathematical activities. International Journal of Innovative Studies in Science and Engineering Technology, 5(5).

Vanhalst, J., Goossens, L., Luyckx, K., Scholte, R. H., & Engels, R. C. (2013). The development of loneliness from mid- to late adolescence: Trajectory classes, personality traits, and psychosocial functioning. Journal of Adolescence, 36, 1305–1312.

Werheimer, M. (1959). Productive Thinking. New York: Harper & Row.

Wu, H. (1999). Basic skills versus conceptual understanding: A bogus dichotomy in mathematics education. The Journal of American Educator. 14(19).