ABSTRAK

Penelitian ini mengkaji perbedaan pembelajaran praktikum virtual dan praktikum riil dalam membangun keterampilan berpikir kreatif siswa. Sampel penelitian adalah 53 siswa kelas X salah satu SMA Negeri di Bandung. Instrumen kegiatan praktikum terdiri dari lembar kerja siswa (LKS) untuk kegiatan praktikum riil dan software praktikum virtual dan instrumen pengumpul data. Keterampilan berpikir kreatif siswa diukur dengan menggunakan tes keterampilan berpikir kreatif berupa delapan soal esai tentang materi pertumbuhan dan perkembangan tumbuhan. Hasil penelitian menunjukkan bahwa rerata skor kelas praktikum riil lebih tinggi dari pada rerata skor pada kelas praktikum virtual. Selain itu, praktikum riil juga bisa meningkatkan keterampilan berpikir kreatif siswa pada semua aspek keterampilan berpikir kreatif (flexibility, fluency, elaboration dan originality). Hal ini menunjukkan bahwa praktikum riil memberikan kondisi yang lebih baik untuk pengembangan keterampilan berpikir kreatif siswa.

ABSTRACT

This study examines the differences of virtual laboratory and real laboratory activity (actual lab) in developing students' creative thinking. Samples were 53 tenth grader in one of senior high schools in Bandung. The instrument consists of student worksheet (LKS), virtual lab software and instruments to collect data. Students’ creative thinking skills were measured using tests of creative thinking in the form of eight essay questions about plant growth and development. Results showed that the average score of actual lab class was higher than the average score of virtual lab class. In addition, actual lab also can improve students' creative thinking in all aspects of creative thinking abilities (flexibility, fluency, elaboration and originality). This suggests that the real laboratory activities provide better conditions for the development of students’ creative thinking.

Abrahams, I., & Millar, R. (2008). Does practical work really work? A study on the effectiveness of practical work as a teaching and learning method in school science. International Journal of Science Education, Vol.30 No.14, hlm. 1945-1969.

Al-Abdali, N. S. & Al-Balushi, S. M. (2016). Teaching for creativity by science teachers in grades 5-10. International Journal of Science and Mathematics Education, Vol.14 (suppl 2), hlm. S251-S268.

Arfiyanti, H. (2013). Pengembangan Lembar Kerja Siswa Berbasis Inquiri untuk Meningkatkan Keterampilan Proses Sains dan Pemahakan Konsep Koloid. Tesis. Sekolah Pascasarjana, Universitas Pendidikan Indonesia, Bandung.

Australian Curriculum, Assessment, and Reporting Authority. (2016). The Australian Curriculum: Science. http://www.australiancurriculum.edu.au/

Chan, C. & Fok, W. (2009). Evaluating learning experiences in virtual laboratory training through student perception: A case study in electrical and electronic engineering at the University of Hong Kong. Engineering Education, Vol.4 No.2, hlm. 70-75.

Davies, D. , Jindal-Snape, D. , Collier, C., Digby, R., Hay, P., & Howe, A. (2013). Creative learning environments in education—A systematic literature review. Thinking Skills and Creativity,Vol. 8, No. 1, hlm. 80-91.

Donnelly, D., O’Reilly, J. & McGarr, O. (2013). Enhancing the student experment experience: Visible scientific inquiry through a virtual chemistry laboratory. Research in Science Education. Vol. 43, No. 4, hlm. 1571-1592.

Fitriana, I. S. (2010). Penggunaan multimedia interaktif (MMI) dalam proses pembelajaran materi teori kinetik gas untuk meningkatkan pemahaman konsep dan keterampilan berpikir kreatif siswa SMA. Tesis. Sekolah Pascasarjana, Universitas Pendidikan Indonesia, Bandung.

Flowers, L. O. (2011). Investigating the effectiveness of virtual laboratories in an undergraduate biology course. The Journal of Human Resource and Adult Learning, Vol. 7, No. 2, hlm. 110-116.

Haigh, M. (2007). Can investigative practical work in high school biology foster creativity?. Research and Science Education, Vol 37, No.2, hlm. 123-140.

Heryadi, D. (2012). Model Pembelajaran inkuiri bebas yang dimodifikasi untuk mening-katkan penguasaan konsep fluida statis dan berpikir kreatif siswa SMA. Tesis. Sekolah Pascasarjana, Universitas Pendi-dikan Indonesia, Bandung.

Hofstein, A. & Lunetta,V. N. (2004). The laboratory in science education: Foundation for The Twenty first Century. Science Education, Vol. 88, No. 1, hlm. 28-54.

Hong, M. & Kang N. (2009). South Korean and the us secondary school science teachers, conceptions of creativity and teaching for creativity. International Journal of Science and Mathematics Education,Vol. 08, No.5, hlm. 821-843.

Hu, W. et al. (2013). Increasing students scientific creativity: the “learn to think” intervention program. The Journal of Creative Behavior, Vol. 47, No.1, hlm. 3-21.

Kementerian Pendidikan dan Kebudayaan Republik Indonesia. (2016). Peraturan Menteri Pendidikan dan Kebudayaan nomer 21 tahun 2016 tentang Standar Isi Pendidikan Dasar dan Menengah. Jakarta.

Kementerian Pendidikan Nasional. (2006). Peraturan Menteri Pendidikan Nasional nomer 22 tahun 2006 tentang Standar Isi. Jakarta: Kementerian Pendidikan Nasional.

Lamanna J. R. & Eason P. K. (2011). Building creative scintists in the classroom laboratory: applications for animal behavior experiments. The American Biology Teacher, Vol. 73, No. 4, hlm. 228-231.

Malik, A. (2010). Model pembelajaran inkuiri dengan menggunakan virtual laboratory dan real laboratory untuk meningkatkan penguasaan konsep dan keterampilan berpikir kritis siswa SMA pada topik listrik dinamis. Tesis. Sekolah Pascasarjana, Universitas Pendidikan Indonesia, Bandung.

Ministry of Education Singapore. (2013). Science Syllabus Lower and Upper Secondary. Singapore: Curriculum Planning and Development Division.

Mumford, M.D., Medeiros, K. E., & Partlow, P. J. (2012). Creative thinking: processes, strategies, and knowledge. The Journal of Creative Behavior, Vol. 46, No. 1, hlm. 30-47.

Olympiou, G., & Zacharia. Z. C. (2011). Blending physical and virtual manipulatives: an effort to improve students’ conceptual understanding through science laboratory experimentation. Science Education, Vol. 96, No. 1, hlm. 21-47.

Prihartini, L. (2012). Upaya meningkatkan hasil belajar dan berpikir kreatif siswa melalui multimedia interaktif pada materi sistem saraf. Skripsi. Jurusan Pendidikan Biologi FPMIPA, Universitas Pendidikan Indonesia, Bandung.

Republik Indonesia. (2003). Undang-Undang Nomor 20 Tahun 2003 tentang Sistem Pendidikan Nasional. Jakarta: Republik Indonesia.

Ritter, S. M. & Mostert, N. (2016). Enhancement of creative thinking skills using a cognitive-based creative thinking. Journal of Cognitive Enhancement, (online first), hlm. 1-11.

Scheckler, R. K. (2003). Virtual labs: A Subtitute for traditional labs?. International Journal Developmental Biology, Vol. 47, No. 2-3, hlm. 231-236.

Shaughnessy, M. F. (1998). An Inteview with E. Paul Torrance: About creativity. Educational Psychology Review, Vol. 10, No.4, hlm. 441-452.

Siu, K. W. M. & Wong, Y. L. (2016). Fostering creativity from an emotional perspective: Do teachers recognise and handle students’ emotion? International Journal of Technology and Design Education, Vol. 26 No. 1, hlm. 105-121.

Solehudin, M. (2010). Kegiatan laboratorium pemecahan masalah pada topik alat indra untuk mengembangkan keterampilan berpikir kreatif, sikap ilmiah dan penguasaan konsep siswa SMA. Tesis. Sekolah Pascasarjana, Universitas Pendidikan Indonesia, Bandung.

Susanti, D. (2009). Penggunaan laboratorium virtual optik dalam kegiatan praktikum inkuiri untuk meningkatkan pemahaman konsep dan keterampilan proses sains mahasiswa calon guru. Tesis. Sekolah Pascasarjana, Universitas Pendidikan Indonesia, Bandung.

Taghavi, S. E., & Colen, C. (2009). Computer simulation laboratory instruction vs. traditional laboratory instruction in digital electronics. Journal of Information Technology Impact, Vol. 9, No. 1, hlm. 25-3.

Torrance, E. P. (1977). Creativity in the Classroom. Washington: National Education Association.

Yenita, Mugisukmawati & Zulirfan. (2013). Hambatan pelaksanaan praktikum IPA Fisika yang dihadapi guru SMP Negeri di Kota Pekanbaru. [online]. Diakses dari http://download.portalgaruda.org/article.php?article=32312&val=2291&title=Hambatan%20Pelaksanaan%20Praktikum%20Ipa%20Fisika%20Yang%20Dihadapi%20Guru%20SMP%20Negeri%20Di%20Kota%20Pekanbaru.

Yoon, H., Woo, A. J., Treagust, D. F. & Chandrasegaran, A. L. (2015). Second-year college students’ scientific attitudes and creative thinking ability: Influence of a problem-based learning (PBL) chemistry laboratory course. In M. Kahveci and M. Orgill (eds). Affective Dimensions in Chemistry Education. Berlin: Springer Verlag.