THE USE OF VIRTUAL LEARNING SPACES AND ITS RELATIONSHIP WITH THE LEARNING OF ALGEBRA IN HIGHER EDUCATION
Main Article Content
Abstract
The research studied the relationship between the use of Virtual Learning Spaces (EVA) and the level of learning achieved in the subject of algebra by students at the University of the Armed Forces - ESPE, Latacunga extension. For this purpose, we worked with an intentional sample of students and teachers. The research was quasi-experimental with a mixed approach. To carry out the research, two groups were established: an experimental group, which used the EVA designed in the MOODLE platform; and a control group, which did not receive the stimulus. To establish the learning levels of the students, the grades of the first algebra partial (pre-test) were obtained; and the teachers were interviewed to determine the way they work and their position on the use of an EVA for the teaching-learning of algebra. To establish the relationship between the variables, an EVA designed for the learning of inequalities and functions was applied during the second partial period; once the application period was over, the grades of the second partial period were obtained (post-test); in addition, a satisfaction survey on the use of the EVA was applied to the students of the experimental group. Finally, frequency tables were used for data analysis; and a qualitative analysis of the interview with the teachers and of the satisfaction survey applied to the students of the experimental group on the use of the EVA was carried out. In the quantitative analysis, the tabulation of grades obtained by the students in the two mid-term exams was made; and from these data, using Fisher's ratio (F), the fulfillment of the hypothesis that determines that the use of the EVA improves the learning of algebra, a dimension measured with the academic performance of the students, was verified.
Article Details
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
References
Bernal, C., (2010). Research Methodology Management, Economics, Humanities and Social Sciences (3rd ed.). Pearson.
Brousseau, G., (1976). Epistemological obstacles and problems in mathematics. InJ. Vanhamme y W. Vanhamme (Eds.), La problématique et l'enseignement des mathématiques. Proceedings of the XXVIII meeting organized by the International Commission for the Study and Improvement of Mathematics Education (pp. 101-117). Louvain la Neuve
Camacho Zúñiga, M., Lara Alemán, Y., & Sandoval Díaz, G., (2017). Teaching and its role inVirtual Learning Environments, from the University Technique National CoastRich. XVIII International Meeting Virtual Educa – Colombia, June, 2017.https://acceso.virtualeduca.red/documentos/ponencias/puerto-rico/1400-36bd.pdf
Corrales Jaar, J. (2021). Updated review: teaching mathematics from virtual learning environments. Science and Education, 5(2), 25-40. https://doi.org/10.22206/cyed.2021.v5i2.pp25-40
Darling-Hammond, L., Flook, L., Cook-Harvey, C., Barron, B., Osher, D., (2020). Implications for educational practice of the science of learning and development. APPLIED DEVELOPMENTAL SCIENCE. VOL. 24, NO. 2, 97–140https://doi.org/10.1080/10888691.2018.1537791
Espeleta Sibaja, A., Fonseca Rodríguez, A., Zamora Monge W., and Wilkerson, T., (2016) Didactic strategies for the teaching and learning of Mathematics. University of Costa Rica - Faculty of Education. http://repositorio.inie.ucr.ac.cr/bitstream/123456789/409/1/18.08.01%202354.pdf
Fernandez,I.,Riveros,In.yMontiel,G.,(2017,January).SoftwareeducationalytheFunctionsmathematics. OmniaYear23,No.1. Pages9–19.https://www.redalyc.org/pdf/737/73753475002.pdf
Flores López, O., (2016). Algebra comprehension problems in college students. SCIENCE AND INTERCULTURE, Vol. 19, No. 2. pp. 54-65. https://doi.org/10.5377/rci.v19i2.3119
González-García, A., Muñiz-Rodríguez, L., Rodríguez-Muñiz, L., (2018, October). An exploratory study on the errors and difficulties of Baccalaureate students with respect to the concept of derivative. Open Classroom. Vol. 47. No., 4. Pp. 449-462.DOI:10.17811/aula_abierta.47.4.2018.449-462
Gutiérrez Pulido, H., & De La Vara Salazar, R., (2012).Analysis and Design of Experiments (3raEd.) McGRaw-Hill
Hernández-Sampieri, R., Fernández-Collado, C., & Baptista-Lucio, P. (2016). Research Methodology (6th ed.). McGraw-Hill.
Herrera Markuez, A., & Montero, M., (2020). Hibridualidad in Higher Education. D.R. ©National Autonomous University of Mexico (UNAM). https://www.zaragoza.unam.mx/wp-content/Portal2015/publications/books/csociales/Hidridualidad_b.pdf
Juan, J, Huertas, M., Cuypers, H., Hans; y Hole, B., (2012). Virtual learning ofmathematics.MagazineofUniversityySocietyof theKnowledge.BEEHIVE.Theft.9,No.1, pp. 86-91 UOC. https://rusc.uoc.edu/rusc/ca/index.php/rusc/article/download/v9n1- learning-virtual-mathematics/1431-3069-1-PB.pdf
Karadag, Z., (2009). Analyzing Students’ Mathematical Thinking in Technology-Supported Environments. [Thesis of Doctor of Philosophy Department of Curriculum, Teaching and Learning]. University of Toronto. https://tspace.library.utoronto.ca/bitstream/1807/19128/1/Karadag_Zekeriya_200911_Ph D_thesis.pdf
Leite, W., Xing, W., Fish G., y Li, C., (2022): Teacher strategies to use virtual learning environments to facilitate algebra learning during school closures. Journal of Research on Technology in Education. DOI: 10.1080/15391523.2022.2110335
Maldonado Granados, L., (Ed.) (2013). Mathematical modeling in the training of the engineer. Ediciones Fundación Universidad Central
Molinero Bárcenas. M., & Chávez Morales, U., (2020, May). Technological tools in theTeaching-learning process in higher education students. RIDE. Rev.Ibero-American Educational Research and Development. Vol.10 Num.19.https://doi.org/10.23913/ride.v10i19.494
Mota, K., Concha, C., and Muñoz, N., (2020, September) Virtual Education as a Transforming Agent of Learning Processes. Revista on line de Política e Gestão Educacional, vol. 24, No. 3, pp. 1216-1225. https://doi.org/10.22633/rpge.v24i3.14358
Niss, M., y Højgaard, T., (2011). Competencies and Mathematical Learning: Ideas and inspiration for the development of mathematics teaching and learning in Denmark: The Danish KOM Project. Roskilde Universitet. https://www.researchgate.net/publication/270585013_Competencies_and_Mathematical_Learning_Ideas_and_inspiration_for_the_development_of_mathematics_teaching_and_ learning_in_Denmark
OECD (2016), Innovating Education and Educating for Innovation: The Power of Digital Technologies and Skills, OECD Publishing, Paris. http://dx.doi.org/10.1787/9789264265097-en
Palarea M., and. Socas, M., (1994). Some cognitive obstacles in learning algebraic language. SUM: Journal on Teaching and Learning of Mathematics, No. 16., pp. 91-98.
Pramesti, T y Retnawati, H., (2018) Difficulties in learning algebra: An analysis of students' errors. Journal of Physics: Conference Series, Volume 1320, The 2nd International Seminar on Innovation in Mathematics DOI 10.1088/1742-6596/1320/1/012061
Ramos Palacios, L., Guifarro, M., and Casas García, L., (2021, August). Difficulties in learning algebra, a study with standardized tests. Bolema, Rio Claro (SP), v. 35, n. 70, p. 1016-1033, Aug. 2021. http://dx.doi.org/10.1590/1980- 4415v35n70a21
Ridgway, J., Nicholson, J., y Mccusker, S., (2011). Developing statistical literacy in students and teachers. In book, Teaching Statistics in School Mathematics - Challenges for Teaching and Teacher Education. Págs. : A Joint ICMI/IASE Study: The 18th ICMI Study , Págs.311-322. Springer.
SandíThinJ.yCrossAlvaradoM.,(2016,April).Proposalmetodológicaofteachingylearningforinnovatethehigher education.InterSedes,theft.17,No.36,pp.153189. https://www.redalyc.org/journal/666/66648525006/html/
Sanjosé, V., Valenzuela, T., Fortes, Mª., Solaz-Portolés, J., (2007). Algebraic difficulties in solving problems by transfer. Electronic Journal of Teaching of the Science Vol. 6, No. 3, 538-561. http://reec.uvigo.es/volumenes/volumen6/ART4_Vol6_N3.pdf
Serres Voisin, y., (2011, June). Initiation of learning algebra and its consequences for teaching. SAPIENS. vol.12 no.1 Caracas jun. 2011. https://ve.scielo.org/scielo.php?script=sci_arttext&pid=S1317-58152011000100007
Vega, J., Niño, F., & Cárdenas, Y., (2015, JulI). Teaching basic mathematics in ae-Learning environment: a case study of the Virtual Manuela Beltrán University. Rev.Esc.Adm.Neg. No79.http://www.scielo.org.co/scielo.php?script=sci_arttext&pid=S0120-81602015000200011
Vilchez Q., E., (2015, February). Paquete VilGebra: didactic resource through the use of Mathematica software in the field of algebra lineeal. Digital Journal — Mathematics, Education and the Internet Vol. 15, Num. 1. http://funes.uniandes.edu.co/8010/1/Vilchez2015Paquete.pdf
Vos, P., (2018, noviembre) How Real People Really Need Mathematics in the Real World”— Authenticity in Mathematics Education. Educ. Sci. 2018, 8(4),195; https://doi.org/10.3390/educsci8040195’
White, H., y Sabarwal, S., (2014). Design and quasi-experimental methods. SynthesisMethodological:evaluationofimpactN.º8,CenterofResearchofUNICEF.https://www.unicef-irc.org/publications/pdf/MB8ES.pdf