TEACHERS AND STUDENTS’ PERCEPTIONS ON THE IMPLEMENTATION OF K-12 SPIRAL PROGRESSION APPROACH
(1) Visayas State University
(*) Corresponding Author
Abstract
This study was conducted to determine the perceptions of the Teachers and Students on the implementation of the K-12 Spiral Progression approach in teaching Secondary Mathematics at Dr. Geronimo B. Zaldivar Memorial School of Fisheries (DGBZMSF). The study utilized the mixed-method design (quantitative-qualitative research design). Interviews, questionnaires, and observation were used to gather data. The data were collected, analyzed, and interpreted using the following statistical tools: frequency, percentage, and medians. The study showed that most teachers and students were in favor of the implementation of the said curriculum. One of the teacher respondents noted that “The K – 12 program will greatly help us develop and upgrade our educational system in the Philippines, so we may be able to compete globally with our students who are fully equipped with the 21st-century skills”, another teacher respondent said, “it provides additional training for the students in preparing for college.” According to a student respondent, “K-12 Program can enhance and learn more or know more about mathematics and others”, another said that “this new curriculum will prepare the students in college and improve the student's skills.” However, they admitted that their performances were much better using the old curriculum. In the qualitative part of the study, the responses were categorized. The study found out that the Spiral curriculum had greatly influenced the curriculum, particularly the content and transitions of subjects, the secondary schools, the learners, and especially the teachers. Based on the findings, teachers were still adapting to the new curriculum. They needed more time and training to master all the fields and learn new teaching strategies because it is challenging to teach something that does not have the necessary mastery. They can teach other branches of their significant subjects without an in-depth discussion because it is not their specialization.
Keywords
Full Text:
PDFReferences
Abulencia, A. S. (2019). Lived experience of principals in the implementation of K to 12 program in the Philippines. EDUCARE, 12(1), 1-24.
Campillo, J. M., Sánchez, R., & Miralles, P. (2019). Primary teachers' perceptions of CLIL implementation in Spain. English Language Teaching, 12(4), 149-156.
Casinillo, L. F., Palen, M. A. E., Casinillo, E. L., & Batidor, P. G. (2020). Assessing senior high student’s learning experiences in mathematics. Indonesian Journal of Educational Studies, 23(1), 44-60.
Clark, S. (2010). Jerome Bruner: Teaching, learning and spiral curriculum. Community and Thought in Education.
Cook, C. R., Miller, F. G., Fiat, A., Renshaw, T., Frye, M., Joseph, G., & Decano, P. (2017). Promoting secondary teachers’well‐being and intentions to implement evidence‐based practices: randomized evaluation of the achiever resilience curriculum. Psychology in the Schools, 54(1), 13-28.
Corpuz, B. B. (2014). The spiral progression approach in the K to 12 curriculum. Retrieved on January, 21, 2017.
de Ramos-Samala, H. (2018). Spiral progression approach in teaching Science: A case study. KnE Social Sciences, 555-567.
DECANO, R. S., PARİNG, I. R. B., & CERENO, A. C. C. Determining Factors to Students’ Science Achievement in the Implementation of K to 12 Spiral Progression Approach: A Mixed Method. International Journal of Educational Research Review, 6(1), 46-54.
Dio, R. V. (2021). Exploring vertical coherence of content topics in Philippine spiral Kto10 mathematics curriculum. International Journal of Learning, Teaching and Educational Research, 19(11).
Dixon, M. E. (1971). An observational approach to the problem of spiral structure. The Astrophysical Journal, 164, 411.
Dunton, J. B. (2019). Spiral progression approach in teaching science and the performance of learners in District I, Capiz. Journal of Physics: Conference Series, 1254(1), 12-45.
Ely, L. L. Mastery Learning of Chemistry Competencies through the Spiral Progression Approach in Curriculum. International Journal of Educational Science and Research (IJESR) 9.5 (2019): 9, 28.
Gal, M. B. Performance of Senior High school students in spiral progression approach of the K to 12 science curriculums.
Gamoran, A. D. A. M. (2001). Beyond curriculum wars: Content and understanding in mathematics. The great curriculum debate: How should we teach reading and math, 134-142.
GONZALES, N. J. (2019). Narrative Experience of Seasoned Teachers in Teaching Science Using Spiral Progression Curriculum. IOER International Multidisciplinary Research Journal, 1(2).
Hall, C. J. (2015). Prisonland: Environment, society, and mass incarceration on New York's northern frontier, 1845-1999 (Doctoral dissertation, The Graduate School, Stony Brook University: Stony Brook, NY.)
Hazel Mae, L., & Alegre, E. M. The level of impact on spiral progression approach in mathematics to the academic performance of the grade 10 students.
Igcasama, R. M. (2020). Evaluation of photomath in teaching elementary algebra. Journal of Education Research and Evaluation, 4(4).
Igcasama, R. M., Borinaga, I. A., Mutia, E. C., Suarez, C. L., & Balogo, J. C. (2019). Explaining the Academic Performance of Grade 7 Students as Influenced by Social Media. In Journal of Physics: Conference Series (Vol. 1254, No. 1, p. 012039). IOP Publishing.
Jenkins, D. H., & Lippitt, R. (1951). Interpersonal perceptions of teachers, students, and parents: An action-research project for the in-service training of teachers.
Kondoh, M., Takahashi, A., & Yagi, K. (2012). Spiral progression in the development of absorption enhancers based on the biology of tight junctions. Advanced drug delivery reviews, 64(6), 515-522.
Lo, S. S. H., Hung, S. C. F., & Loo, J. H. C. (2019). Influencing Civil Society Through Mass Media, Education and Migration. In China's New United Front Work in Hong Kong (pp. 289-335). Palgrave Macmillan, Singapore.
Lohani, V. K., Mallikarjunan, K., Wolfe, M. L., Wildman, T., Connor, J., Muffo, J., ... & Mostaghimi, S. (2005). Work in progress-spiral curriculum approach to reformulate engineering curriculum. In Proceedings Frontiers in Education 35th Annual Conference (pp. F1D-1). IEEE.
Maing, E. M., Mangadang, A. T., Salic-Hairulla, M. A., Canalita, E. E., Sequente, F. R., & Yuenyong, C. (2019). Assessment of Science Teacher Competence in Teaching Secondary Science with Spiral Progression Approach. In Journal of Physics: Conference Series (Vol. 1340, No. 1, p. 012059). IOP Publishing.
Mangali, G. R., Tongco, C., Aguinaldo, K. P., & Calvadores, C. J. (2019). Stories of Students toward Spiral Progression Approach in Science: A Phenomenological Study. International Journal of Multidisciplinary Research and Publications, 2(2), 27-48.
Migallos, K. M., Cabahug, R. G., & Hipol, A. I. (2020). Preparedness of [K-12] teachers for the implementation of the senior high curriculum in a selected Philippine private school. In Journal of Physics: Conference Series (Vol. 1470, No. 1, p. 012017). IOP Publishing.
Orale, R. L., & Uy, M. E. A. (2018). When the spiral is broken: Problem analysis in the implementation of spiral progression approach in teaching mathematics. Journal of Academic Research, 3(3), 14-24.
Orbe, J. R., Espinosa, A. A., & Datukan, J. T. (2018). Teaching chemistry in a spiral progression approach: Lessons from science teachers in the Philippines. Australian Journal of Teacher Education (Online), 43(4), 17.
Resurreccion, J. A., & Adanza, J. (2015, March). Spiral progression approach in teaching science in selected private and public schools in Cavite. In Proceedings of the DLSU Research Congress (Vol. 3, pp. 1-12).
Smith, M. K. (2002). Jerome S. Bruner and the process of education. The encyclopedia of informal education, 7(6).
Spillane, J. P. (1999). External reform initiatives and teachers' efforts to reconstruct their practice: The mediating role of teachers' zones of enactment. Journal of curriculum Studies, 31(2), 143-175.
Vermote, B., Aelterman, N., Beyers, W., Aper, L., Buysschaert, F., & Vansteenkiste, M. (2020). The role of teachers’ motivation and mindsets in predicting a (de) motivating teaching style in higher education: A circumplex approach. Motivation and Emotion, 44(2), 270-294.
DOI: https://doi.org/10.24071/ijiet.v5i1.2983
Refbacks
- There are currently no refbacks.
Copyright (c) 2021 Raymund Medrano Igcasama
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
Indexed and abstracted in:
IJIET Sinta 2 Certificate (S2 = Level 2)
We would like to inform you that IJIET (International Journal of Indonesian Education and Teaching):has been nationally accredited Sinta 2 by the Ministry of Education, Culture, Research and Technology of the Republic of Indonesia based on the decree No. Surat Keputusan 158/E/KPT/2021. Validity for 5 years: Vol 5 No 2, 2021 until Vol 10 No 1, 2026.
This work is licensed under CC BY-SA.
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
IJIET DOI: https://doi.org/10.24071/ijiet
p-ISSN: 2548-8422 (since 5 January 2017); e-ISSN: 2548-8430 (since 5 January 2017)
IJIET (International Journal of Indonesian Education and Teaching) is published twice a year, namely in January and July, by the Institute for Research and Community Services of Sanata Dharma University, Yogyakarta, Indonesia.