International Journal of Progressive Sciences and Technologies

The 21st century brings a change in education. In order to compete in the 21st century, every education graduate must have good competence. CTL is the best way to develop student competence in this century. This is because CTL is closer to students' daily lives so that this teaching can increase the environmental literacy of students. However, the application of CTL in schools was still low. The solution to this problem is to use the mechanical wave module based on CTL into Physics teaching in schools. The purpose of this research is to determine the effect of the mechanical wave module based CTL on the environmental literacy of grade XI students. This research is a quasi-experimental research with a before and after design for one sample group. The research instrument consisted of a test of learning outcomes for the knowledge aspect and performance assessment sheet for the environmental literacy of students. The data were analyzed by descriptive statistics, normality test, homogeneity test, and paired comparison test. From the results of data analysis, it can be stated that the use of the mechanical wave module based on CTL has given a positive effect on the knowledge and environmental literacy of grade XI students with a confidence level of 95%.

Griffin, P., McGaw, B. & Care, E. (eds). (2012). Assessment and Teaching of 21st Century Skills. Dordrecht, NL, Springer.

Sanjaya, W. (2008). Learning Strategies. Bandung: Kencana Prenada Media Group.

Asrizal, Desnita, & Yenni Darvina. (2020). Need Analysis for Developing Electronic Enrichment Book of Physics Based on Contextual Teaching and Environmental Potential. IOP Conf. Series: Journal of Physics, 1481, 1-10.

Ahmad Nurkholis Majid, & Eli Rohaeti. (2018). The Effect of Context-Based Chemistry Learning on Student Achievement and Attitude American. Journal of Educational Research, 6 (6), 836-839.

Michael Allan A. Bahtaji. (2015). Improving Transfer of Learning Through Designed Context-Based Instructional Materials. European Journal of Science and Mathematics Education, 3 (3), 265-274.

Wintarti, Atik, et al. (2008). Contextual Teaching and Learning Mathematics in Middle School/Madrasah Tsanawiyah Class VII Edition 4. Jakarta: Bookkeeping Center of the Ministry of National Education.

Crawford. (2001). Teaching Contextually Reserch, Rationale and Techniques for Improving Student Motivation and Achievement in Mathematics and Science. Waco, Texas: CORD Communications, Inc.

Agnaldo Arroio. (2010). Context Based Learning: A Role for Cinema in Science Education. Science Education International, 21, 131-143.

Adedokun & Olufunke, Mary. (2014). Literacy in Early Childhood: Implications for Sustainable Development. Proceedings of the 1st Annual International Interdisciplinary Conference, AIIC, Azores, Portugal.

Cooper, J.D. (1993). Literacy: Helping Children Construct Meaning. Toronto: Hougton Miffin Company.

McBeth, William, & Volk, Trudi. (2010). The National Environmental Literacy Project: A baseline Study of Middle Grade Students in the United States. Journal of Environmental Education, 41 (1).

O'Brien, Susan. (2007). Indications of Environmental Literacy: Using a New Survey Instrument to Measure Awareness, Knowledge, and Attitudes of University-Aged Students. (Thesis). Iowa State University. The USA. p 122.

Hollweg, K. S., Taylor, J. R., Bybee, R. W., Marcinkowski, T. J., McBeth, W. C., & Zoido, P. (2011). Developing a Framework for Assessing Environmental Literacy. Washington, DC: North American Association for Environmental Education (NAAEE).

Diana Kusumaningrum. (2018). Environmental Literacy in 2013 Curriculum and Science Teaching in Elementary Schools. Indonesian Journal of Natural Science Education (IJNSE), 01.

Siti Rahmah, Reni Puspitasari, Romahas Lubis, and Festiyed. (2019). Analysis of Class VIII Natural Science Teaching Textbooks Based on Environmental Literacy. Pillar of Physics Education, 12 (3), 601-608.

Maknun, D. (2011). Ecology Project Practicum Based on Local Ecobiological Conditions in Improving Environmental Literacy and Conservation Measures for Students. Holistic, 12 (02).

Rohweder, L. (2004). Integrating Environmental Education Into Business Schools' Educational Plans in Finland. GeoJurnal, 60.

Nasution, S. (2008). Various Approaches in Learning and Teaching. Jakarta: Earth Literacy.

Fatimah, et al. (2017). Development of Literacy-Based Teaching Modules. VI (2).

Sigit Ardiansyah, Chandra Ertikanto, and UU Rosidin. (2019). The Effect of Using Multiple Representations-Based Contextual Teaching Modules on Static Fluid Material Against Students' Critical Thinking Ability. Journal of Physics Education, University of Muhammadiyah Metro, VII, 265-278.

Adam Malik, Endah Kurnia Y, & Siti Robiatus S. (2016). Improving Student Science Process Skills through Context Based Learning. JPPPF-Journal of Physics Education Research & Development, 2 (1), 23-30.

Asrizal, A. Amran, A. Ananda, F. Festiyed, & R. Sumarmin. (2018). The Development of Integrated Science Instructional Materials to Improve Students' Digital Literacy in Scientific Approach. JPII- Indonesian Natural Sciences Education Journal, 7 (4), 442-450.

Asrizal, A. Amran, A. Ananda, Festiyed, & S Khairani. (2018). Effectiveness of Integrated Science Instructional Material on Pressure in Daily Life Themes to Improve Digital Age Literacy of Students. IOP Conf. Series: Journal of Physics, 1006, 1-8.