ANALISIS KEMAMPUAN METAKOGNISI SISWA MELALUI PENGGUNAAN LEMBAR KERJA SISWA BERBASIS DISCOVERY LEARNING

Mia Hilda Amanda(1), Sri Haryani(2), F. Widhi Mahamanti(3), Marsini Marsini(4),


(1) Jurusan Kimia Universitas Negeri Semarang
(2) Jurusan Kimia Universitas Negeri Semarang
(3) Jurusan Kimia Universitas Negeri Semarang
(4) SMA Negeri 5 Purwokerto

Abstract

Chemistry learning in schools emphasizes learning chemistry concepts in a coherent, structured and detailed manner. Concepts delivered in a coherent, structured and detailed way make it easier for students to understand and understand concepts. Several strategies can be used to assist students in learning concepts, including the use of student worksheets that shape student thinking in a structured way. This descriptive analysis research aims to determine the ability of metacognition through the use of student worksheets based on discovery learning. The research design used is the One-Shot Case Study. The study was conducted by giving treatment to the group studied in the form of learning using Discovery Learning-based Student Worksheets four times. After being given treatment, the group is given a post-test in the form of questions that have metacognition indicators and question indicators, then given a questionnaire response to the worksheet based on discovery learning, a questionnaire responding to the ability of metacognition. Data from the results of the post test and questionnaire were analyzed and conclusions were drawn. The results showed an average post-test score obtained at 87.94% while the average questionnaire score obtained at 81.64%, the results of the interview analyzed descriptively also showed good metacognition skills. As for the results of students' metacognition abilities based on their ability level, they are: 17.64% low level; 61.76% moderate level; and 20.59 are at a high level. Based on the data collected, it can be concluded that the metacognition ability of the XI MIA 7 grade students of SMA Negeri 5 Purwokerto is at the most moderate level.

Full Text:

PDF

References

Arifin, M, 1995, Pengembangan Program Pengajaran Bidang Studi Kimia, Surabaya: Airlangga University Press.

Astra, I. M., Nasbey, H. dan Muharramah, N.D., 2015, Development of Student Worksheet by Using Discovery Learning Approach for Senior High School Student, TARBIYA: Journal of Education in Muslim Society, Vol 1 No 01, Hal. 91-96.

Demoin, D., dan Silvia, S. J., 2013, Chemical Kinetics Laboratory Discussion Worksheet, Journal of chemical education, Vol 90, No Hal. 1200-1202.

Fitriana, M, 2016, Penggunaan Strategi Pembelajaran Inkuiri Untuk Meningkatkan Metakognisi Siswa. Jurnal Inovasi Pendidikan Kimia. Vol 10, No 1, Hal. 1702-1711

Hoesnan, M., 2014, Pendekatan Saintifik dan Kontekstual dalam Pembelajaran Abad 21, Bogor: Penerbit Ghalia Indonesia.

Haryani, 2012, Membangun Metakognisi dan Karakter Calon Guru Melalui Pembelajaran Praktikum Kimia Analitik Berbasis Masalah, Semarang: Unnes Press.

Jayapraba, dan Kanmani, 2013, Metacognitive awareness in science classroom of higher secondary students, Vol 4, No 07, Hal. 49-56.

Karsli, F., dan Cingdem S., 2009, Developing worksheet based on science process skills: factors affecting solubility, Asia-pasific forum on science learning and teaching,Vol 10, No 01, Hal. 1-12.

Kelly, R. M. Phelps, A.J. and Sanger, M.J. 2004, The effects of a computer animation on students’ conceptual understanding of a can-crushing demonstration at the macroscopic, microscopic, and symbolic levels, The Chemical Educator, Vol 9, No 02, Hal.184-189.

Kolomuc, A., Haluk O., Mustafa M., dan Sibel A., 2012, The effect of animation enhanced worksheets prepared based on 5E model for the grade 9 students on alternative conceptions of physical and chemical changes, Procedia-social and Behavioral sciences, Vol 46, Hal. 1761-1765.

Metcafle, J., 1998, Cognitive Optims: Self Deception or Memory-Based Processing Heuristics? , Personality and Social Psychology Review, Lawrence Erlbaum Associate ,Inc. Vol 2, No 02, Hal.100-110.

Muna, K., Endang S., dan Sri H., 2016, Pengaruh Guided Inquiry Learning terhadap Keterampilan Metakognisi Siswa dalam Materi Kelarutan & Hasil Kali Kelarutan, Journal of Inovative Science Education, Vol 5, No 1, Hal.19-27.

Schraw.K., dan K Hartley., 2006, Research in Science and Technology, Vol 4, No 3, Hal. 226-229.

Senam, 2008, Efektivitas Pembelajaran Kimia Untuk Siswa SMA Kelas XI dengan Menggunakan LKS Kimia Berbasis Life skill, Jurnal Pendidikan Didaktika, Vol 9, No 3, Hal. 280-290.

Sugiyono, 2008, Metode Penelitian Kuantitatif Kualitatif dan R&D, Bandung: Alfabeta.

Wolfer, A., 2000, Introductory College Chemistry Student’s Understanding of Stoichiometry; Connections Between Conceptual and Computational Understandings and Instruction, A Thesis Repost, In Partial Flfillment of The Requirements for The Degree of Doctor of Philosophy: Oregon State University.

Yuliana, Tasari, dan Septiana, S., 2016, The Effectiveness of Guided Discovery Learning to teach Integral Calculus for the Mathematics Students of Mathematics Education Widya Dharma University, Journal of Mathematics Education, Vol 6, No 1, Hal. 1-10.

Refbacks

  • There are currently no refbacks.




Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.