Development of Multimedia Learning Using Multiple-Based Lectora Inspire on Chemical Equilibrium Materials
Abstract
This study aims to describe the content and quality of multimedia learning Lectora Inspire based on multiple representations of Chemical Equilibrium material. This multimedia development learning based on multiple representations uses the Four-D (4D) model adapted from Thiagarajan. This study is limited to the stages define (defining), design (design) and develop (development). The data needed is the suitability of the concept label with the 2013 curriculum syllabus, the suitability of learning multimedia content with the concept label, narrative and typology as well as the results of the trial. The instruments used to obtain the data are the concept label identification table with the 2013 curriculum syllabus, the concept label identification table, narrative and typology, the concept label conformity checklist, narrative and typology, and the response questionnaire. Product trials were conducted on the 2018 chemistry students to determine the feasibility of students for multimedia that had been developed. Multimedia learning based on multiple representations using lectora inspire consists of home pages, instructions for using multimedia, how to read navigation content and chemical equilibrium materials. The chemical equilibrium material content consists of fourteen concept labels. Multimedia learning based on multiple representations using Lectora Inspire on chemical equilibrium material is dominated by concept labels that include submicroscopic typology and symbolic chemical equilibrium about reaction processes microscopically. The average individual trial results are 87.2% and the average group trial results are 88.5%.
Downloads
References
Andyana, G. D. 2013. Video Eksperimen dan Animasi Pemahaman Konsep Kimia. Jurnal Pendidikan dan Pengajaran, Jilid 46(3).
Ardi, A. M. 2017. Pengembangan Multimedia Interaktif Berbasis Representasi Kimia pada Materi Laju Reaksi untuk Siswa Kelas XI SMAN 4 Kota Jambi. Skripsi, Jurusan Kimia. Fakultas MIPA. Universitas Jambi.
Asi, N.B. 2017. Pengembangan Bahan Ajar Kimia Bahan Makanan Berbasis Web. Jurnal Ilmiah Kanderang Tingang. 8, 2 (Des. 2017), 163-170.
Davetak. 2013. Teachers Influence Students Motivation for Learning Science with Understanding. Eurasia Journal o f Mathematics, Science & Technology Education.
Justi, R. S., and Gilbert J. K. 2009. Models and modeling in chemical education, in in Gilbert J., De Jong O., Treagust D. and Van Driel J. (ed.), Chemical Education : towards research-based practice, Dordrecht : Kluwer.
Kean, E., and Middlecamp, C. 1985. A Survival Manual for General Chemistry (Panduan Belajar Kimia Dasar). Penerjemah: A. Handyana Putjaarmaka. Jakarta: Erlangga.
Kousathana, M., and Tsaparlis, G. 2002. Students’ Errors in Solving Numerical Chemical Equilibrium Problems. Chemistry Education: Reserch and Practice in Europe, 3 (1).
Mas’ud, M. 2012. Membuat multimedia pembelajaran dengan Lectora. Yogyakarta : Shonif.
Puspita. 2011. Kesulitan Siswa Kelas XI IPA SMA Brawijaya Smart School dalam Memahami materi pokok kesetimbangan kimia dengan menggunakan tes obyektif. Skripsi, Jurusan Kimia. Fakultas MIPA. Universitas Brawijaya.
Rizqiyah, P. 2017. Pengembangan Multimedia Pembelajaran (Lectora Inspire) Berbasis Multiple Level Representas Materi Kelarutan dan Hasil Kali Kelarutan. Skripsi. Fakultas Sains dan Teknologi. Universitas Islam Negeri Walisongo.
Thiagarajan, S., Semmel, D. S., and Semmel, M. I. 1974. Instruktional Development for Training Teachers of Exceptional Children. A Sourcebook. Indiana: Indiana University.
Talanquer, V. 2011. Macro, Submicro, and Symbolic: The Many Faces of the Chemistry “Triplet”. International Journal of Science Education.
Copyright (c) 2020 FKIP Universitas Palangka Raya
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
Copyright Ⓒ Author
https://orcid.org/0000-0003-1726-3651
