Students&rsquo; Lived Experiences in Manipulating a Compound Microscope in Selected Public Secondary School

Jaharina  Malok,; Anamarie  Valdez,

Students’ Lived Experiences in Manipulating a Compound Microscope in Selected Public Secondary School

Discipline: molecular biology, biophysics and biochemistry

Abstract:

The lack of adequate laboratory equipment and trained personnel hamper effective microscope usage. Intending to comprehend the effects of hands-on learning in science education, this study investigates students' lived experiences, challenges, and specific skills or knowledge gained using manipulative compound microscopes. The study utilized qualitative research design and mostly relies on in-depth interviews as the data collecting tool. The research approach of the study applied transcendental phenomenological technique to provide insightful analysis using Moustakas' phenomenological framework. The findings showed that although practical experiences greatly improve students' knowledge of biological ideas and inspire scientific curiosity, improper use of a microscope is hampered by insufficient training and tools. Additionally, the findings revealed that students initially struggled to use the microscope, and technical issues with focus and operation created frustration. These early challenges helped build confidence and skill over time. Furthermore, with time, the practical use of compound microscope raised confidence, increased curiosity about science, and skill acquisition. The microscope's challenges taught students problem-solving, patience, and endurance, which are essential for scientific investigation. In conclusion, this study emphasized the need to remove the challenges students encounter to foster confidence and competence in scientific inquiry. Future studies should explore innovative training methods and technological integration in microscope instruction to enhance the findings.

References:

Abas, H., & Marasigan A. (2020). Readiness of science laboratory facilities of the public junior high school in Lanao del Sur, Philippines. Ioer International Multidisciplinary Research Journal, 2(2)
Absolute Clarity (2023). Getting started with compound microscopes: Avoid these common beginners’ mistakes.
Acero, L. (2023). Challenges And Opportunities In The Study Of Cell Using Virtual Online Laboratory. International Journal on Bioinformatics & Biosciences.
Alonzo, J., et al. (2022). Challenges in microscope usage in regional classrooms. Journal of Science Education, 15(3), 45-57.
Chukundah, U. D., & Alibo, K. T. (2024). Utilization of Instructional Simulation in the Teaching and Learning of Sciences in Senior Secondary Schools in Ekeremor Local Government Area of Bayelsa State. FUO-Journal of Educational Research, 3(2), 35-45.
Gericke, N., Hogstrom, P., & Wallin, J. (2022). A systematic review of research on laboratory work in secondary school. Studies in Science Education, 59(2), 245–285. https://doi.org/10.1080/03057267.2022.2090125
Ghosh, S., Sapkota, B. S., Rao, R. S., Patil, S., Rajkumar, C., & Lakshminarayan, S. (2023). Expansion microscopy: A revolution in diagnostic pathology. Journal of Microscopy, 290(1), 3-9.
Johnson, J. A., & Park, M. (2022). Creating School Scientific Communities among Urban Refugee ELL Populations. European Journal of Science and Mathematics Education, 10(1), 87-103.)
Momoti V., Boateng S.D., Sihele T. (2024). Experiences of Using a Real Compound Microscope and a Virtual Compound Microscope in Understanding Plant Tissues by First-year Life Science Students at a Tertiary Institution in South Africa. E-Journal of Humanities Arts and Social Sciences, 5(3), 393-401.
Quality Magazine (2024). Common challenges when using microscopes and how to address them.
Rams, S., & Martínez, P. (2024). The Role of Microscopes to Promote Sustainable Development Goals in Primary and Secondary Education: A Systematic Literature Review. Education Sciences.
Reyes, M., & Tan, L. (2023). Logistical issues in science education: A survey on microscope accessibility. Philippine Educational Research Journal, 10(1), 23-32.
Ruscic M., et al. (2018). The role of experiential learning in understanding biological concepts. Journal of Biological Education, 52(4), 392-404.
Woithe, J, (2020). Designing, measuring, and modeling the impact of the hands-on particle physics learning laboratory S’Cool LAB at CERN Effects of student and laboratory characteristics on high-school students’ cognitive and affective outcomes