Visualization and representation of the polygon concept in Elementary School textbooks
DOI:
https://doi.org/10.24220/2318-0870v28e2023a7261Keywords:
Early years, Geometry., Visual ability, Semiotic recordsAbstract
This paper presents an analysis of textbooks of two collections approved by the Nacional Textbook Plan from teacher’s manual copies. The first relates to the first two initial years of Elementary School and the second to the last four. We analyzed how the concept of a polygon is proposed to work in these advances in light of the records presented in the textbook, requested from students in proposed activities and suggestions to the teacher, complementing with answers or suggestions. The elements provided in natural or figurative language outline a possible conversion from one to another to explore visualization and representation to obtain the concept to be formulated by students at the end of this schooling level through a relational understanding. As a result, we believe that the formation of geometric thinking should be consolidated. The analyses identified that this concept is well placed in the textbooks intended for the first two years, through creative and imaginative stories or relationships with everyday objects around the student, which allows establishing the conversion between them and, thus, achieving the goal of forming mental construct about polygons. However, this does not occur in the second collection since the denomination in the natural language of polygon is constantly associated with the figural record of polygonal region and not of polygon. We conclude, therefore, that a harmful rupture occurs in the conceptual development to learn about the concept.
Downloads
References
Arcavi, A. The role of visual representation in the learning of mathematics. In: Conference on the Psychology of Mathematics Education, North American Chapter, 21., 1999, Mexico. Proceedings […]. Mexico. Disponível em: http://www.clab.edc.uoc.gr/aestit/4th/PDF/26.pdf. Acesso em: 30 abr. 2022.
Barbosa, J. L. Geometria diferencial e cálculo das variações. Rio de Janeiro: IMPA, 2005.
Brasil. Ministério da Educação. Secretaria de Educação Fundamental. Parâmetros curriculares nacionais: matemática. Brasília: MEC/SEF, 1997.
Downs, M. Geometria Moderna: parte I, II. São Paulo: Edgard Blucher, 1971.
Duval, R. Semiosis y pensamiento humano: registros semióticos y aprendizages intelectuales. 2. ed. Cali: Universidad Del Valle, Instituto de Educación y Pedagogía, 2004.
Figueiredo, S. A.; Sales, A. O uso do livro didático pelo professor de matemática. Anais do Seminário Sul-Mato-Grossense de Pesquisa em Educação Matemática, v. 3, n. 1, p. 236-246, 2009. Trabalho apresentado no 3º Seminário Sul-Mato-Grossense de Pesquisa em Educação Matemática, 2009, [s.l.]. Disponível em: https://periodicos.ufms.br/index.php/sesemat/issue/view/236. Acesso em: 16 jan. 2024.
Gutierrez, A.; Boero, P. Handbook of research on the psychology of mathematics education: past, present and future. Rotterdam: Sense Publishers, 2006. p. 205-235. Disponível em: https://www.researchgate.net/profile/Angel-Gutierrez-20/publication/319144047_Handbook_of_research_on_the_psychology_of_mathematics_education/links/5ce91d69458515712ec03d77/Handbook-of-research-on-the-psychology-of-mathematics-education.pdf. Acesso em: 12 dez. 2022.
Hitt, F.; González-Martín, A. S. Cognitive aspects of learning and teaching content areas. [s.l.]: Group for the Psychology of Mathematics Education, 2004. v. 3, p. 329-336. Disponível em: https://brill.com/display/book/9789463005616/BP000002.xml. Acesso em: 12 dez. 2022.
Leivas, J. C. P. Imaginação, intuição e visualização: a riqueza de possibilidades de abordagem geométrica no currículo de cursos de licenciatura de Matemática. 2009. 294 f. Tese (Doutorado em Educação) – Universidade Federal do Paraná, Curitiba, 2009.
Leivas, J. C. P. Investigando o último nível da teoria de Van Hiele com alunos de pós-graduação: a generalização do Teorema de Pitágoras. Revista VIDYA, v. 37, n. 2, p. 515-531, 2017.
Moreira, M. A. Metodologias de pesquisa em ensino. São Paulo: Editora Livraria da Física, 2011.
Piaget, J.; Inhelder, B. A representação do espaço na criança. Porto Alegre: Artes Médicas, 1993.
Presmeg, N. C. Visualization and mathematical giftedness. Studies in Mathematics, v. 17, n. 3, p. 297-311, 1986.
Severino, A. J. Metodologia do trabalho científico. 24. ed. São Paulo: Cortez, 2016.
Skemp, R. Psicología del aprendizaje de las matemáticas. 2. ed. Madrid. Ediçiones Morata, 1993.
