Teachers’ and Students’ Perceptions on Introduction of Astrophysics in Bhutanese Curriculum: An Exploratory Study
Published: 2021-04-20
Page: 63-74
Issue: 2021 - Volume 3 [Issue 1]
Tashi Dendup *
Trashigang Middle Secondary School, Ministry of Education, Post Office Box 42001, Trashigang, Bhutan.
Karma Utha
Samtse College of Education, Royal University of Bhutan, Post Office Box 22001, Samtse, Bhutan.
Ugyen Pem
Samtse College of Education, Royal University of Bhutan, Post Office Box 22001, Samtse, Bhutan.
*Author to whom correspondence should be addressed.
Abstract
Astronomy education is rapidly growing because of its significant benefits to everyday life. Hence, Royal Education Council has introduced Astrophysics content for Bhutanese students in the curriculum from 2015. Royal Education Council is the highest decision-making body that initiate and implement educational reforms and school curriculum in Bhutan. Using Mixed-methods approach, this study investigated the perceptions of teachers and students on introduction of Astrophysics in Bhutanese curriculum. The study was carried out in four schools under Trashigang District from 1st March to 20th March 2020. The data were collected through survey questionnaire and structured interview. The sample comprised of 298 students (119 male and 179 female) and 11 teachers. The study found out that the teachers and students possess negative perceptions towards teaching and learning of Astrophysics. For majority of the students, the concepts of Astrophysics were found to be abstract and difficult to understand. The study also revealed that the students’ find difficult to see the real-life applications of Astrophysics concepts as well as had minimal knowledge on the relevant career opportunities in future. Some of the recommendations from the study include revisiting the content on Astrophysics to make it suitable for the learners, focus on teacher preparation and make students aware of the career opportunities.
Keywords: Astrophysics, abstract, astronomy, perception, application, difficult, education
How to Cite
Downloads
References
Tenzin W, Lepcha S. Report on the science education of Bhutan Classes IV-XII. Academia; 2015.
Available:https://www.academia.edu/32886258/Report_on_the_Science_Education_in_Bhutan_-Classes_IV_to_XII
Creighton J. What is astrophysics. Futurism; 2014.
Available:https://futurism.com/what-is-astrophysics
Bailey JM, Slatter TF. A review of astronomy education research. Astronomy Education Review. 2003;2(2):20-45.
Balter A. What is Astrophysics? Space; 2017.
Available:https://www.space.com/26218-astrophysics.html
Utha, et al. Secondary school students’ perceptions and experiences of learning science and mathematics: The case of Bhutan. Asia Pacific Journal of Education; 2021.
DOI: 10.1080/02188791.2021.1901652
Choudhuri AR. Astrophysics for physicists. Cambridge University Press; 2010.
Available:https://www.cambridge.org/9780521815536
Subasi M, Aydin S, Kocak G. Gifted students’ perceptions on basic astronomy concepts. Journal of Emerging Trends in Educational Research and Policy Studies. 2015;6(6):444-451.
Comins NF. A method to help students overcome astronomy misconceptions. The Physics Teacher. 2000;38(543):1-4.
Available:https://doi.org/10.1119/1.1341946
Godunova V. Introducing astronomy. A way to renovate school curricula. Proceedings of the International Astronomical Union. 2009;1-4.
Available:https://doi.org/10.1017/S1743921311003450
Solbes J, Palomar R. Difficulties in learning astronomy in secondary school. Revista Brasileira de Ensino de Física [Research in Physics Training]. 2013;35(1):1-12.
Available:https://doi.org/10.1590/S1806-11172013000100016
Iyibil A. The candidate teachers' perception about basic astronomy concept. Journal of Educational Science. 2011;443-448.
Kurnaz MA, Gultekin NG, Iyibil UG. On Turkish candidate science teachers' pre-existing ideas about some basic astronomy concepts. Procedia - Social and Behavioral Sciences. 2013;93:247-251.
Rosa MR. Exchange of astronomy teaching experience. Transaction of the International Astronomical Union. 2001;24(3):95-100.
Available:https://doi.org/10.1017/S0251107X00000481
Arslan AS, Durikan U. Pre-service teachers’ mental models of basic astronomy concepts. Science Education International. 2016;27(1):88-116.
Available:https://files.eric.ed.gov/fulltext/EJ1100165.pdf
Rees M. The past decade and the future of cosmology and astrophysics. Princeton University Press; 2018.
Percy JR. AIP conference proceeding. American Institute of Physics; 2010.
Available:https://doi.org/10.1063/1.3506081
Stavinschi M. Why Astronomy Should BE Taught in Schools-a Resolution. IAU Special Session. 2003;4, 89.
Available:https://ui.adsabs.harvard.edu/abs/2003IAUSS...4E..89S/abstract
Bergstrom Z, Sadler P, Sonnert G. Evolution and persistence of students' astronomy career interests: A gender study. Journal of Astronomy and Earth Sciences Education. 2016;3(1):77-92.
Available:https://doi.org/10.19030/jaese.v3i1.9690
Oon P-T, Subramaniam R. On the declining interest in physics among students—From the perspective of teachers. International Journal of Science Education. 2011;33(5):727-746.
Bretones PS. Astronomy Education Research: Impact and Future Directions. EPJ Web of Conferences. 2019; 200(01022):1-11.
Available:https://doi.org/10.1051/epjconf/201920001022
Ibrahim N, Zakiang MA, Damio SM. Attitude in learning physics among form four students. Social and Management Research Journal. 2019;16(2):19-40.
Available:https://doi.org/10.24191/smrj.v16i2.7060
Kallery M. Astronomical concepts and vvents awareness for young children. International Journal of Science Education. 2011;33(3):341-369.
Available:https://doi.org/10.1080/09500690903469082
Greve J-P D. Astronomy education: Research paving the road to enthusiasm for studying science. Proceedings of the International Astronomical Union. 2010;211-216.
Available:https://doi.org/10.1017/S1743921311022794
Creswell JW. Research Design: Qualitative, quantitative and mixed methods approaches (4th ed.). Sage Publications; 2014.
Roopa S, Satya RM.. Questionnaire designing for a Survey. The Journal of Indian Orthodontic Society. 2012;46(4):273-277.
Available:https://doi.org/10.5005/jp-journals-10021-1104
Pandey P, Pandey MM. Research methodology: tolols and techniques. Bridge Center; 2015.
Etikan I, Musa SA, Alkassim RS. Comparison of convenience sampling and purposive sampling. American Journal of Theoretical and Applied Statistics. 2016;5(1):1-4.
Available:https://doi.org/10.11648/j.ajtas.20160501.11
Orlanda-Ventayen CC, Ventayen RJ. Role of social media in education: A teacher's perspective. ASEAN Journal of Open Distance Learning. 2017;9(2).
Marusic M, Hadzibegovic Z. Student attitudes towards astronomy: A bi-country questionnaire results. Revista Mexicana de Fısica. 2018;64(1):61-69.
Available:https://doi.org/10.31349/revmexfise.64.61
Anjos S, Carvalho A. Youth, science, and media: Perceptions of astronomy and space sciences in formal and informal contexts. Communication and Society. 2020;37:109-126.
Available:https://doi.org/10.17231/comsoc.37 (2020).2428
Jacquart M. Observations, simulations, and reasoning in astrophysics. Philosophy of Science; 2020.
Available:https://doi.org/10.1086/710544
Shaikh R, Chopde S, Padalkar S. Teaching and learning basic astronomy through a blended module. 8th Annual Conference on Education and e-learning; 2018.
Wong MK-Y, Chan CW, Hu B. An activity-based approach to teaching astrophysics at the level of general-education course. Proceedings of the first teaching and learning symposium. Hongkong: Honhkong University of Science and Technology. 2001;35-41.