Validitas dan Praktikalitas Modul Laju Reaksi Terintegrasi Eksperimen dan Keterampilan Proses Sains untuk Pembelajaran Kimia di SMA
Abstract
Modules are one of the learning materials that can be used in the learning process. Modules compiled based on guided inquiry learning syntax and integrating experimental activities that will be able to improve students' science process skills. This study aimed to produce a reaction rate module based on guided inquiry integrated experiments and valid student science process skills and practical use in senior high school  chemistry learning. The type of this research was research and development (R & D) and the development model used was the 4-D model which consists of four stages: (1) define, (2) design, (3) development, (4) desseminate. This research was limited to the validity and practicality test. The validity test was carried out by 5 experts and limited trials to reveal the practicality done at SMAN 1 Lubuk Basung. The research instrument used was in the form of a validity and practicality questionnaire which was analyzed using kappa moment (k) Data analysis showed that the average moment of kappa validity was 0.84 with a very high validity category. The average practical kappa moments from teachers and students were respectively 0.83 and 0.85 with a very high practicality category. These results were also supported by the analysis of students' answers in answering critical questions, exercises, prelab questions, postlab questions, and worksheets in modules, with an average value of 90.2. Based on the results of the study it can be concluded that the guided inquiry integrates experiments and science process skills on based reaction rate topic are valid and practical used for chemistry learning in senior high school.
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Andromeda, Bayharti, Mentari Deliputri, (2015). The Development of Guided Inquiry Based Worksheet for Labora-tory Work on Topic of Colloidal Sys-tem for Senior High School. Prosiding ICOMSET ISBN. 978-602-19877-3-5.P. 273-277
Andromeda, Ellizar, Iryani, Guspatni, Lidia Fitri (2018) Validity and Practicality of Colloid Chemistry Module Based Guided Inquiry Integrated Experiments to Improve the Science Process Skills of High School Students. IOP Conf. Ser.: Mater. Sci. Eng. 335 012099 doi: 10.1088/1757/899X/335/1/012099
Andromeda, Iryani, Mawardi, Rahmi Susmiati, (2014) Pengembangan Bahan Ajar Berbasis Guided-Inquiry Dengan Representasi Chemistry-Triangle Pada Materi Struktur Atom Untuk Siswa SMA Prosiding ISBN 978-602-70491-0-9, SEMIRATA2014. http://repository. unp.ac.id/575/1/Prosiding%20Semirata%20IPB.pdf
Andromeda, Yerimadesi, Iwefriani, (2017) Pengembangan Lembaran Kerja Siswa (LKS) Eksperimen Berbasis Guided Inquiry Materi Laju Reaksi Untuk Siswa SMA/MA. Jurnal Eksakta Pendidikan.Vol 1(1)Mei 2017, e-ISSN 2579-860X, http://jep.ppj.unp.ac.id/ index.php/jep/article/view/47/23
Boslaugh. Sarah dan Paul A. W. (2008). Sta-tistics in a Nutshell. a desktop quick reference. Beijing. Cambaridge.
Fam-ham. Koln. Sebastopol. Taipei.tokyo: o reilly.
Carin, A., (1997). Teaching Science Through Discovery, 8th edition. Ohio: Merrill Publ.co
Chang R., (2010). Chemistry, 10th Edition, McGraw-Hill Companies inc 1221 Avenue of The Americas, NY,
Daryanto. (2014). Pengembangan Perangkat Pembelajaran (Silabus, RPP, PHB, Bahan Ajar) . Yogyakarta: Gava Media
Depdiknas.(2008). Panduan Pengembangan Bahan Ajar. Jakarta: Departemen Pen-didikan Nasional Direktorat Jendral Manajemen Pendidikan Dasar Dan Menenga. Direktorat Pembinaan Sekolah Menegah Atas.
Hanson, D., (2005). designing process-oriented guided- inquiry activities. In faculty guidedbook: A comprehensive tool for improving faculty performance, ed. S. H. Beyerline and D. K. Apple. Lisle,IL : Pasific Crest
Hanson, D., (2006). Instructur’s guided to process-oriented guided-inquiry learn-ing.lisle.II: Pasific Crest
Hofstein, Avi dan Rachel Mamlok-Naaman. (2007). The Laboratory in Science Ed-ucation. The State of the Art.
Chemistry Education Research and Practice e journal. 8(2), 105-107
Hofstein, A and Lunetta V.N., (2003). The Laboratory in Science Education: for the 21st century, Science Education Re-search 22, 28-54
Mardona. (2013). Analisis Keterampilan Proses Sains Siswa SMA kelas XI IPA pada pokok Bahasan Hidrolisis Melalui Metode Eksperimen. Prosiding Semi-nar Kimia: ISBN 978-602-19421-09.
Mudjijo. (1995). Tes Hasil Belajar. Jakarta: Bumi Aksara
Nworgu L.N., dan Otum V.V. 2013 Effect of Guided Inquiry with analogy Instruc-tional Strategy on Students Acquisition of Science Process Skill. Journal Edu-cation and Practic. ISSN 2222-1735(paper). ISSN 2222-288X (online). Vol 4 No.27.
Permendiknas No 59 tahun 2014, tentang standar isi
Permendiknas No 103 tahun 2014, tentang standar isi
Sodikun. (2015). Pengembangan Modul Ber-basis Inkuiri Terbimbing Pada Materi Sistem Pencernaan Makanan untuk Meningkatkan Keterampilan Proses Sains. Surakarta: Universitas Sebelas Maret
Suryosubroto,B.(1983). Sistem Pengajaran Dengan Modul. Yogyakarta: PT. Bina Aksara
Tawil M., dan Liliasari. (2014). Keterampi-lan-Keterampilan Sains dan Implemen-tasinya Dalam Pembelajaran IPA. Ma-kassar: Badan Penerbit Universitas Negeri Makassar
The Colladge Board. (2012). AP Chemistry Guided Inquiry Experiment: Applying the Science Practices. Collage Board.
Trianto. (2010). Model pembelajaran terpadu. Jakarta: Bumi Aksara
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