A Scholarly Deficit on Contextualising Physics Instruction to Agriculture and Related Fields: A Systematic Literature Review | Chapter 2 | New Horizons of Science, Technology and Culture Vol. 2

Contextualization is a process of embedding knowledge in history, culture, philosophical inquiry, and personal experiences. In education, it is defined as the process of making the curriculum relevant to certain settings, situations, or real-life applications in which learning will be meaningful and useful to all students. The promotion and integration of agriculture concepts can be strengthened by teaching physics in the context of agriculture, such as in the Philippines, with a majority of farming, livestock, and fishing communities.

 

This is a study of the literature on contextualization of physics education on agriculture and related fields conducted to determine the agriculture and related fields used to contextualize physics instruction, to determine the parts of physics instruction were contextualized to agriculture and related fields, and to determine the areas of physics in which instruction is contextualized to agriculture and related fields.

 

After reviewing published research articles from ScienceDirect, PubMed, ISI Web of Science, Google Scholar publications, ResearchGate, and other online research repositories used for scholarly literature, results showed that very few studies were conducted that contextualised physics instruction using agriculture and related fields.

 

In the available literature, 5.26% used farming as context of their physics instruction, another 5.26% used fishing practices as context, 31.58% used environmental context, 15.79% used Indigenous/Cultural Practices as context, and 42.11% used other contexts such as household chores, biking, and other recreational activities. Of the different fields of physics, mechanics is the most contextualised to agriculture with 52.63% of the available studies, while no study contextualised Modern Physics to agriculture and related fields. The study emphasises that educators can use concepts and practices from agriculture to make science learning more meaningful, practical, and responsive. Contextualising science activity should be an important aspect of this scientific sense-making of concepts.  Based on the literature reviewed, physics can be contextualised in a manner that talks about the related experiences of the students while it fits the parts and instructional cycle of lesson development. There is a vast amount of science and technology embedded in agricultural processes and practices that educators can harness to enhance the relevance and effectiveness of science education.

 

The study concluded that the teaching-learning/instruction and learning activities are part of a lesson often contextualised to agriculture, and no available study has contextualised the motivation part of the lesson. Most publicly available scholarly works contextualising physics lessons to agriculture are foreign; thus, efforts in this area should be pushed forward in the Philippines.

 

Author(s) Details

Rey-Mark G. Basagre
College of Development Education, Central Bicol State University of Agriculture, Philippines.

 

Please see the book here:- https://doi.org/10.9734/bpi/nhstc/v2/5642