Effect of Contextualized-Based E-Learning Modules in Chemistry 10 on Student&rsquo;s Conceptual Understanding

Rhodalia  Salamat,

Effect of Contextualized-Based E-Learning Modules in Chemistry 10 on Student’s Conceptual Understanding

Discipline: Education

Abstract:

This study was undertaken to develop and validate Contextualized-Based e-Learning Modules in Chemistry 10 of Sta. Elena High School, City Schools Division of Marikina City, School Year 2022-2023. The researcher used descriptive research design in the study to evaluate the developed Contextualized-Based e-Learning Modules in Chemistry 10, and to assess the level of performance of the student respondents after the utilization of the mentioned material. The sources of data were the twenty (20) experts and twenty (20) Science teachers, as well as thirty (30) Grade 10 students. The teacher-respondents evaluated the material as Very Satisfactory with a grand weighted mean of 3.86 and 3.88 respectively and showed no significant difference. Meanwhile, the performance of the students as reflected in their pre-test and post-test results showed substantial increase from 62.50% to 90.60% and indicated significant difference. Furthermore, the respondents commended the aid that the e-learning module to learners as it contains informative content, while they suggested to further improve some of its parts for clearer instructions.

References:

Anclote, M. R (2017) Localized and Contextualized Learning Module in Science 8 (Chemistry) As Intervention Material (Master’s Thesis), Marikina Polytechnic College, Marikina City.
Adona, S. J (2018). Development and Validation of An Interactive Web-Based Learning Module in Science 7 (Master’s Thesis), Marikina Polytechnic College, Marikina City.
Agarwal, P. (2019). Importance Of Contextual Learning and Benefits to Learners | JBCN. JBCN International School. https://www.jbcnschool.edu.in/blog/importance-of-contextual-learning/.
Anonuevo, H. (2019). Interactive Supplementary Intervention Materials in Chemistry 8 (Master’s Thesis), Marikina Polytechnic College, Marikina City.
Armstrong, D., & Poë, J. C. (2020). The Science of Human Health—A Context-Based Chemistry Course for Non-Science Majors Incorporating Systems Thinking. Journal of Chemical Education, 97(11), 3957–3965. https://doi.org/10.1021/acs.jchemed.0c00887Tomlinson, B., & Masuhara, H. (2004). Developing Language Course Materials.
Buitre, S. L. (2023). Electronic Strategic Intervention (e-SIM) in Grade 7 (Biology): Effects on Students Performance (Master’s Thesis), Marikina Polytechnic College, Marikina City.
DepEd. (2019). DepEd Order No. 21, Series of 2019. Policy Guidelines on the K to 12 Basic. Retrieved from https://www.deped.gov.ph/wp-content/uploads/2019/08/DO_s2019_021.pdf.
DepEd. (2020). DepEd Order No. 18, Series of 2020. Policy Guidelines for the Provision of Learning Resources in the Implementation of the Basic Education Learning Continuity Plan. Retrieved from https://www.deped.gov.ph/wp-content/uploads/2020/08/DO_s2020_018.pdf.
Majid, N., & Rohaeti, E. (2018). The Effect of Context-Based Chemistry Learning on Student Achievement and Attitude. American Journal of Educational Research, 6(6), 836–839. https://doi.org/10.12691/education-6-6-37.
Pinuela, J. B. F (2022). Supplementary Digitalized Work Activities in Science 10 (Chemistry) For Enhancement of Student’s Academic Performance (Master’s Thesis), Marikina Polytechnic College, Marikina City.
Pokhrel, S., & Chhetri, R. (2021). A Literature Review on Impact of COVID-19 Pandemic on Teaching and Learning. Sage Journal, 8(1). DOI: 10.1177/2347631120983481.
Smith, J. K. (2018). Descriptive Research. In N. J. Salkind (Ed.), Encyclopedia of Research Design (Vol. 1, pp. 384-387). SAGE Publications. https://doi.org/10.4135/9781412961288.n120.
Suryawati, E., & Osman, K. (2017). Contextual Learning: Innovative Approach towards the Development of Students’ Scientific Attitude and Natural Science Performance. EURASIA Journal of Mathematics, Science and Technology Education, 14(1). https://doi.org/10.12973/ejmste/79329