Journal of Language and Linguistic Studies

Different methodologies have arisen in the last century, and all of them advocate for a change of the traditional method. In this paper, Inquiry-Based Learning is introduced in an experimental group (17 students) to see the different results of children following this innovative method as compared to the control group (16 students) that followed the traditional method. The participants of the study are doing the third year of Primary Education in Spain. The assessment results showed that although just after the post-test both groups did not have significant differences, they became more prominent when the test was repeated in a couple of weeks. This suggests that inquiry-based learning is a better methodology to teach Science due to the students’ significant learning, their interest and motivation, and the academic results achieved. The biggest problem we are concerned with is if children acquire the knowledge or it is just because they study to pass the exams

academic results; comparative study; Inquiry-Based Learning; Primary Education.

Abd el Khalick, F. (2004). Inquiry in science education: International perspectives. International Journal of Science Education, 38 (3), 397-429.

Abdi, A. (2014). The Effect of Inquiry-Based Learning Method on Students' Academic Achievement in Science Course. Universal Journal of Educational Research, 2(1), 37-41.

Abei, Z., Olelewe, C. J., Orji, C. T., Ibezim, N. E., Sunday, N. H., Obichukwu, P. U., & Okanazu, O. O. (2020). Effects of Innovative and Traditional Teaching Methods on Technical College Students’ Achievement in Computer Craft Practices. Journal of Science Teacher Education, 13(1), 1-12.

Anderson, R.D. (2002). Reforming Science Teaching: What Research Says About Inquiry. Journal of Science Teacher Education, 13:1, 1-12.

Anthonissen, B.A. (2018). Supporting student teachers in designing IBL lessons (Master’s thesis).

Bruder, R., & Prescott, A. (2013). Research evidence on the benefits of IBL. ZDM, 45(6), 811-822.

Bruner, J.S. (1961). The act of Discovery. Harvard Educational Review, 31 (1), 21-32.

Busquets, T., Silva, M., & Larrosa, P. (2016). Reflexiones sobre el aprendizaje de las ciencias naturales: Nuevas aproximaciones y desafíos. Estudios pedagógicos,42, 117-135.

Couso, D. (2014). De la moda de “aprender indagando” a la indagación para modelizar: una reflexión crítica. Huelva: Servicio de Publicaciones Universidad de Huelva.

Calvo, C. (2014). ¿Qué pasaría si a los niños y niñas se les dejara aprender? Polis. Revista Latinoamericana, (37).

Dewey, J. (1910). How we think. Lexington, MA: DC Heath.

Ernst, D. C., Hodge, A., & Yoshinobu, S. (2017). What is inquiry-based learning. Notices of the AMS, 64(6), 570-574.

French, D. & Russell, C. (2002). Do graduate teaching assistants benefit from teaching inquiry-based laboratories? Bioscience, 52(11), 1036-41.

Furtak E. M., Seidel T., Iverson H., Briggs D.C. (2012). Experimental and Quasi Experimental Studies of Inquiry-Based Science Teaching: A Meta-Analysis. Review of Educational Research, 82(3), 300-329.

Garritz, V., Labastida-Piña, D. V. Espinosa-Bueno, S. & Padilla, K. (2010). Pedagogical Content Knowledge of Inquiry: An instrument to document it and its application to high school science teachers. Proceedings of ARST-2010 conference, Philadelphia, PA.

HarlEn, W. (2013). Inquiry-based learning in science and mathematics. Review of science, mathematics and ICT education,7(2), 9-33.

Khalaf, B. K. (2018). Traditional and Inquiry-Based Learning Pedagogy: A Systematic Critical Review. International Journal of Instruction,11(4), 545-564.

Kolb, D. A., Boyatzis, R. E., & Mainemelis, C. (2001). Experiential learning theory: Previous research and new directions. Perspectives on thinking, learning, and cognitive styles,1(8), 227-247.

Löfgren, R., Schoultz, J., Hultman, G., & Björklund, L. (2013). Exploratory talk in science education: Inquiry-based learning and communicative approach in primary school. Journal of Baltic Science Education,12(4), 482-495.

Lederman N.G., Lederman J.S., Antink A. (2013). Nature of science and scientific inquiry as contexts for learning of science and achievement of scientific literacy. International Journal of Education in Mathematics, Science and Technology 1(3), 138-147.

Martin-Hansen, L. (2002). Defining inquiry. The Science Teacher, 69, 34-37.

Marble, S. (2007). Inquiring into teaching: Lesson study in elementary science methods. Journal of Science Teacher Education,18(6), 935-953.

Mishler, E. (1990). Validation in inquiry-guided research: The role of exemplars in narrative studies. Harvard Educational Review, 60(4), 415-443.

Pardjono, P. (2016). Active learning: The Dewey, Piaget, Vygotsky, and constructivist theory perspectives. Jurnal Ilmu Pendidikan,9(3), 24-32.

Prince, M., & Felder, R. (2007). The many faces of inductive teaching and learning. Journal of College Science Teaching, 36(5), 14-20.

Rabadán, J. & Martínez, P. (1999). Las actitudes en la enseñanza de las ciencias: una aproximación a una propuesta organizativa y didáctica. Alambique, Didáctica de las Ciencias Experimentales 22, 67-75.

Sánchez, A. C., & Gómez, R. R. (2013). Enseñanza de las ciencias naturales para el desarrollo de competencias científicas. Amazonia investiga, 2(3), 30-53.

Schwab, J. (1966). The Teaching of Science. Cambridge: Harvard University Press.

Wadsworth, B. J. (1996). Piaget's theory of cognitive and affective development: Foundations of constructivism. Londres: Longman Publishing.