IMPLEMENTATION OF THE STEM LEARNING TO IMPROVE THE CREATIVE THINKING SKILLS OF HIGH SCHOOL STUDENT IN THE NEWTON LAW OF GRAVITY MATERIAL

Jeni  Pratika Surya; Abdurrahman; Ismu Wahyudi

Jeni Pratika Surya Universitas Lampung
Abdurrahman Universitas Lampung
Ismu Wahyudi Universitas Lampung

Keywords: creative thinking ability, problem based learning model, STEM approach

Abstract

The purpose of the research is how to know the improvement of the ability to think creatively in class X high school students by using the STEM approach. The sample of this research is the student's class X science one SMAN 14 Bandarlampung school year 2017/2018. The research design used was One-Group-Pretest-Posttest. Creative students thinking ability data collected using the instrument’s ability creatively. The result showed that the value of Normalized Gain (N-Gain) around 0.57 with categories is being. As well as the value of the significance test Pairs Sample T-test of 0.000 meaning STEM learning approach to implementation is able to improve thinking ability creative students. In this study of the indicators most influential creative thinking towards the implementation of the approach STEM is flexible thinking skills seen indicators of assessment of pretest and posttest students who tested showed increased results significantly.

Author Biographies

Jeni Pratika Surya, Universitas Lampung

Program Studi Pendidikan Fisika

Abdurrahman, Universitas Lampung

Program Studi Pendidikan Fisika

Ismu Wahyudi, Universitas Lampung

Program Studi Pendidikan Fisika

References

Abdurrahman. 2015. Guru Sains Sebagai Inovator: Merancang Pembelajaran Sains Inovatif Berbasis Riset. Yogyakarta: Media Akademi.
Afriana, J., Permatasari, A., Fitriani, A. (2016). Penerapan Project Based Learning Terintegrasi STEM untuk Meningkatkan Literasi Sains Siswa Ditinjau dari Gender. Jurnal Inovasi Pendidikan IPA. 2 (2), 202-212.
Asmuniv. (2015). Pendekatan Terpadu Pendidikan STEM Upaya Mempersiapkan Sumber Daya Manusia Indonesia Yang Memiliki Pengetahuan Interdisipliner Dalam Menyosong Kebutuhan Bidang Karir Pekerjaan Masyarakat Ekonomi ASEAN (MEA).
Beers, S. (2011). 21st Century Skills. Preparing Students For Their Future.
California Departement of Education. 2015. Science, Technology, Engineering, and Mathematics. Diakses dari http://www.cde.ca.gov/pd/ca/sc/stemintrod.asp diakses pada 5 November 2016.
Johnson, E. B. (2002). Contextual Teaching and Learning: What it is and Why it’s here to Stay. California: Corwin Press, Inc
Kaniawati, D.S., & Suwarma, I. K. I. R. (2015). Study Literasi Pengaruh Pengintegrasian Pendekatan STEM dalam Learning Cycle 5E terhadap Kemampuan Pemecahan Masalah Siswa pada Pembelajaran Fisika. Seminar Nasional Fisika (SiNaFi) (hal. 39-48). Bandung: Departemen Pendidikan Fisika FPMIPA UPI.
Kementrian Pendidikan dan Kebudayaan. (2013). Materi Pelatihan Guru: Implementasi Kurikulum 2013 SMA/MA, SMK/MAK Matematika. Jakarta: Kemdikbud.
Laboy Rush, D. (2010). Integrated STEM Education through Project-Based Learning. New York: Learning.com.
Lou, S.J., Shih, R.C., Diez, C.R., dan Tseng, K.H. (2011). The Impact of Problem Based Learning Strategies on STEM Knowledge Integration and Attitudie, an Exploratory Study Among Female Taiwanese Senior High School Students. International Journal of Thechnology and Design Education: Springer, 195-215.
Rahayuni, G. 2016. Hubungan Keterampilan Berpikir Kritis dan Literasi Sains pada Pembelajaran IPA Terpadu dengan Model PBM dan STM. Jurnal penelitian dan Pembelajaran IPA, 2(2), 131-147
Rosnawati, R. 2012. Enam Tahapan Aktivitas dalam Pembelajaran Matematika untuk Mendayagunakan Berpikir Tingkat Tinggi Siswa. Makalah disajikan dalam Seminar Nasional Revitalisasi MIPA dan Pendidikan MIPA dalam Rangka Penguasaan Kapasitas Kelembagaan dan Profesionalitas Menuju WCU, Universitas Negeri Yogyakarta, Yogyakarta.