Many Chemical concepts are abstract. Generally, chemical learning at this momen only in makroscopic and symbolic dimension, whereas submicroscopic often deserted. The research aim to develop animation media of multiple representation based on science material of reaction rate determinant factors. Method used is research and development (R & D) according to Sugiyono (2008). Generally, research and development have three steps. There are step 1^st) needs analysis, step 2^nd) planning and development, and step 3^th) evaluation the product. Results of this research is media of multiple representation based on science material of reaction rate determinant factors which have characteristic: 1) displaying science material of reaction rate determinant factors which be explained by multiple representation, 2) have parts consist of opening program title, foreword, instructional, competence standard, basic competence, indicators of product cognitive, indicators of process cognitive, science material of collision theory, science material of reaction rate determinant factors, literature, dan button for exit from the program, 3) have very high level of contents suitability that is 96.97 % according to teacher and also have high level of interesting that is 79.20% according students.

 Key words :  animation media, multiple representation, reaction rate determinant factors.

Arikunto, S. 1997. Penilaian Program Pendidikan. Edisi III. Bina Aksara. Jakarta.

Chittleborough, G.D. 2004. The Role of Teaching Models and Chemical Representations in Developing Mental Models of Chemical Phenomena. Thesis. Science and Mathematics Education Centre.

Farida, I. dkk. 2010. Representasional competence’s profile of preservice chemistry teachers in chemical problem solving. Seminar Proceeding of The Fourth International Seminar on Science Education., 30 October 2010. Bandung.

Fazri, L. 2012. Pengembangan Representasi Kimia Sekolah Berbasis Intertekstual pada Submateri Kepolaran Senyawa dalam Bentuk Multimedia. Skripsi. UPI. Bandung.

Organisation for Economic Cooperation and Development (OECD). 2010. PISA 2009 Results: Executive Summary (Figure 1 only), tersedia : http://www.oecd.org/dataoecd/54/12/46643496.pdf, retrieved 2012

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

Surya, B. 2010. Pengembangan Media Animasi Kimia dan LKS Praktikum Berbasis Keterampilan Generik Sains Siswa Kelas XI IPA. Skripsi. Universitas Lampung. Bandar Lampung.

Tasker, R. & Dalton, R. 2006. Research Into Practice: Visualization of The Molecular World Using Animations. Chem. Educ. Res. Prac. 7, 141

Tim Pengembang Ilmu Pendidikan FIP-UPI. 2007. Ilmu dan Aplikasi Pendidikan Bagian III : Pendidikan Disiplin Ilmu. Penerbit Imtima. Bandung.

Tim Penyusun. 2006. Standar Isi Mata Pelajaran Kimia SMA/MA. BSNP. Jakarta.

Wahyuni, S. 2010. Pengembangan Animasi Kimia dan Praktik untuk Mencapai Keterampilan Generik Sains Pada Materi Pokok Laju Reaksi Siswa Kelas XI. Skripsi. Universitas Lampung. Bandar Lampung.