Indonesian people as human resources should be prepared to globalization era in the 21^st  century, therefore they have to develop their higher order thinking skill rapidly, to improve their quality. Science education has an important role to develop young generation thinking skill, that makes science teachers training needs to be improved. Three science teaching models  have been developed to increase science teacher candidates high order thinking skill, consist of Chemical Bond Model of Teaching (MPIK), Thermodynamics Model of Teaching (MPTD) and Anatomy and Physiology of Human Body Model of Teaching (MPAF). Each of the models consists of concept analysis and concept map, learning activities, teaching materials, test item. These studies show the dependency of the higher order thinking aspects and the characteristics of the subject matter in the models, including kind of concepts, width and depth of the subject matter areas. The models have been implemented and evaluated in three institutes of teacher training in Java. The findings show that the models had successfully increased the science teacher candidates way of thinking, on the whole stages of critical thinking skills, that have raised their propositional and combinatorial thinking. The impact shows that science models of learning (MPIPA) are available as new trend of science teacher training for the globalization era.

model pembelajaran; berpikir tingkat tinggi; calon guru IPA

Costa A.L. and Pressceisen, B.Z., (1985). Glossary of thinking skills, in A.L. Costa (e) Developing Minds : A Resource Book for Teaching Thinking, Alexandria : ASCD, 303-312.

Dahar, R.W., (1989) Teori-teori Belajar: Jakarta: Penerbit Erlangga.

Dagher, Z. and Cossman, G. (1992) Verbal explanations given by science teachers: the nature and implications : Journal of Research in Science Teaching, 29(4), 361-374.

Ennis, R.H., (1991), An Elaboration of a cardinal goal of science instruction, Educational Philosophy and Theory, 23(1), 31-43.

Firman, Harry, et.al. (1988). Studi Tentang Profil Perkembangan Kognitif Mahasiswa Jurusan Pendidikan Fisika FPMIPA IKIP Bandung, Laporan Penelitian, Bandung, FPMIPA.

Herron, J.D. et.al. (1977), Problems associated with concept analysis. Science Education, 61(2).185-199.

Joyce, B. et.al. (1992) Models of Teaching, London: Prentice Hall International.

Kogut, L.S. (1996), Critical Thinking in General Chemistry, Journal of Chemical Education, 73(3), 218-221.

Krishnan, S.R. and Howe, A.C. (1994), The mole concept: developing an instrument to asses conceptual understanding, Journal of Chemical Education, 71(8), 653-655.

Lawson, A.E., (1979), A Theory of teaching for conceptual understanding, rational thought and creativity, in A.E. Lawson (e), 1980 AETS Yearbook : The Psychology of Teaching for Thinking and Creativity, Ohio: Clearinghouse: 104-149.

Liliasari, (1997-2000), Pengembangan Model Pembelajaran Materi Subyek Untuk Meningkatkan Keterampilan Berpikir Konseptual Tingkat Tinggi Mahasiswa Calon Guru IPA, Laporan Penelitian, Hibah Bersaing VI, Dikti, Bandung FPMIPA UPI.

Mc. Donald, J.L. & Sheehan, D.J., (1983) Use of the Longeot test to assess formal operation: a research summary. Paper. Presented at the thirteenth annual symposium of the Jean Piaget Society, Philadelphia.

Nakhleh, M.B., (1994), Chemical education research in the laboratory environment: how can research uncover what student are learning? Journal of Chemical Education, 71(3), 201-205.

Novak, J.D. and Gowin, D.B. (1985), Learning How To Learn. Cambridge: Cambridge University Press.

Penner, K. (1995), Teaching Critical Thinking, New York: Regent College.

Siregar, N.P. (1994) Panduan Penulisan Buku Teks MIPA, Publikasi Terbatas, Bandung: FPMIPA UPI.

Splitter, L.J. (1991) Critical thinking : what, why, when dan how, Educational Philosophy and Theory, 23(1), 89-109.

Westbrook, S.L. and Rogers, L.N. (1994), Examining the development of scientific reasoning in ninth-grade physical science student, Journal of Research in Science Teaching, 31(1), 65-76.