Collaborative Problem Based Learning Model for Creative Thinking Ability

Main Article Content

Rusly Hidayah
Fauziatul Fajaroh
Parlan Parlan
I Wayan Dasna

Abstract

In developing student creativity, it is still a topic of discussion from various experts, especially at the university level, which is related to the optimization of the right brain as a student which is used to increase creativity and imagination. With this assumption, it is imperative in efforts to develop creativity for students that it is very important to pay attention to. Students can face challenges for their future if they master chemistry as a reference point. In learning chemistry as a student, you must have the ability to think creatively to solve these problems. This research aims to improve the chemistry learning process at the university level, especially for students by using a method. The topic in this discussion aims to find out the content and discussion of the application of student collaborative problem based learning methods in the chemistry learning process at the university level.

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How to Cite
Hidayah, R., Fajaroh, F. ., Parlan, P., & Dasna, I. W. . (2021). Collaborative Problem Based Learning Model for Creative Thinking Ability. Journal of Asian Multicultural Research for Educational Study, 2(2), 24-30. https://doi.org/10.47616/jamres.v2i2.156
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References

Abbas, J., Aman, J., Nurunnabi, M., & Bano, S. (2019). The impact of social media on learning behavior for sustainable education: Evidence of students from selected universities in Pakistan. Sustainability, 11(6), 1683

Adams, K. (2005). The Sources of Innovation and Creativity. National Center on Education and the Economy (NJ1).

Da‐Hong, L., Hong‐Yan, L., Wei, L., Guo, J. J., & En‐Zhong, L. (2020). Application of flipped classroom based on the Rain Classroom in the teaching of computer‐aided landscape design. Computer Applications in Engineering Education, 28(2), 357-366.

Ellis, V., & Orchard, J. (2014). Learning teaching “from experience”: Towards a history of the idea. Learning teaching from experience: Multiple perspectives, international contexts, 1-17.

Fuad, A., Alfin, J., Fauzan, F., Astutik, S., & Prahani, B. K. (2019). Group Science Learning model to improve collaborative problem solving skills and self-confidence of primary schools teacher candidates. International Journal of Instruction, 12(03).

Jacob, S. M. (2012). Mathematical achievement and critical thinking skills in asynchronous discussion forums. Procedia-Social and Behavioral Sciences, 31, 800-804.

Keenan, C.W., Kleinfelter, D.C., & Wood, J.H. (1984). Kimia untuk Universitas, Jilid 1 (6th ed.). Jakarta: Erlangga.

Khairani, S., Suyanti, R. D., & Saragi, D. (2020). The Influence of Problem Based Learning (PBL) Model Collaborative and Learning Motivation Based on Students’ Critical Thinking Ability Science Subjects in Class V State Elementary School 105390 Island Image. Budapest International Research and Critics in Linguistics and Education (BirLE) Journal, 3(3), 1581-1590.

Mihardi, S., Harahap, M. B., & Sani, R. A. (2013). The effect of project based learning model with kwl worksheet on student creative thinking process in physics problems. Journal of Education and Practice, 4(25), 188-200.

Nursa'adah, F. P., & Rosa, N. M. (2016). Analisis kemampuan berpikir kreatif kimia ditinjau dari adversity quotient, sikap ilmiah dan minat belajar. Formatif: Jurnal Ilmiah Pendidikan MIPA, 6(3).

Pardhan, H., & Mohammad, R. F. (2005). Teaching science and mathematics for conceptual understanding? A rising issue. Eurasia Journal of Mathematics, Science and Technology Education, 1(1), 1-20.

Patten, M. L., & Newhart, M. (2017). Understanding research methods: An overview of the essentials. Routledge.

Rusmansyah, R., Yuanita, L., Ibrahim, M., Isnawati, I., & Prahani, B. K. (2019). Innovative chemistry learning model: Improving the critical thinking skill and self-efficacy of pre-service chemistry teachers. JOTSE: Journal of Technology and Science Education, 9(1), 59-76.

Schulz, K. P., Geithner, S., Woelfel, C., & Krzywinski, J. (2015). Toolkit‐based modelling and serious play as means to foster creativity in innovation processes. Creativity and innovation management, 24(2), 323-340.

Sirhan, G. (2007). Learning Difficulties in Chemistry: An Overview. Turkish Science Education, 4(2), 1.

Summers, J. J. (2006). Effects of collaborative learning in math on sixth graders’ individual goal orientations from a socioconstructivist perspective. The Elementary School Journal, 106(3), 273-290.