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4. Discussion
The current study suggests that creative problem solving approaches improves students’ creativ- ity and support the finding by previous researchers (Teo & Waugh, 2010; Park, 2013; Runco & Johnson, 2002; Levenson, 2013; Fard et al., 2014). This study seems to strengthen the state- ment that teachers’ awareness and effort in promoting creativity are able to foster creativity in students (Teo & Waugh, 2010; Park, 2013; Levenson, 2013). The qualitative data complements this finding when students’ result suggest that their creativity level increased as they get more involved in the intervention study – as can be interpreted from the observation data. Meanwhile, the increase in students’ problem solving ability coincided with Kopka (2010) and Hu’s, Xiaohui’s, and Shieh’s (2017) findings, where they claimed that problem solving has created the foundation for a successful mathematics education, which seem to support the result of this study. This implies that having experienced the teaching and learning through collaborative CPS, their result increased in tandem. Silver (1997, p. 79) claimed that fostering creativity strategies will enrich mathematical problem solving. This finding also supported the suggestion by some authors (Lester et al., 1994, pp. 661–662), who proposed that teach- ing mathematics by using a problem solving approach can help the students to develop a deep understanding of mathematical ideas. This observation is also in line with the claims by Sriraman (2004), which stated that creativity is crucial as a foundation in mathematics. Nonetheless, even though the mean scores increased, the level of the participants’ creative problem solving skill was still at a moderate level and can still be improved. The findings support the suggestions by researchers that enhancing students’ mathematical creativity in a mathematics classroom also depends powerfully on the learning and interactive environ- ments (Kaufman & Sternberg, 2006). Obviously, some students need special attention from teachers and being in a large class- room with the teacher-centred approach does not help. In a large classroom with students having various capabilities, teachers need to know the correct approach to accommodate them all. This research addresses this issue by prescribing a collaborative group work among the students. In his study, Haylock (1987, p. 72) found positive impacts of creativity and cre- ative problem solving in conducive classrooms. Therefore, it is crucial for teachers to create powerful learning (and interactive) environments (Kaufman & Sternberg, 2006) to provide 286 M. Khalid et al. Enhancing creativity and problem solving skills through creative problem... effective learning environments elements in fostering creativity as well as to accommodate the various needs of students. Some participants in the study admitted that collaborative solving problems during the in- terventions made them feel more confident. They also added that solving problems in a group develops their potential, and some admitted that collaborative CPS made them feel that math- ematics is easier and learning mathematics is enjoyable. Thus, CPS was able to assist them in overcoming the challenges of the new syllabus. These findings are in line with the recommenda- tion by Park (2013, pp. 412, 416) who recommended that fostering creativity in mathematics can help students think in different ways besides enjoying learning mathematics. The participants also admitted that they gain knowledge from their friends in the same group. They were able to check and compare their answers with other groups through an inter-group discussion. This finding supports the research done by Retalis, Katsamani, Geor- giakakis, Lazakidou, Petropoulou, and Kargidis (2010). One of the participants raised that creative problem solving gives him the space to analyse and choose the best method for answering mathematics questions. His statement supports the work of Anderson, Krathwohl, Airasian, Cruikshank, Mayer, Pintrich, Raths, and Wittrock (2000, p. 208) when they claimed that creativity is a skill that could be cultivated to enhance the cognitive skills, which aims to be utilized in solving problems. These findings proved the positive impacts of creativity and creative problem solving (Haylock, 1987). It is crucial for teachers to create powerful learning and interactive environments to foster creativity (Kaufman & Sternberg, 2006). The findings in this study also show that the recommendation from researchers who recom- mended problem solving as one of the solutions to many issues in mathematics classroom is valid (Kopka, 2010; Khalid, 2017). Yüklə 317,63 Kb. Dostları ilə paylaş:
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