Affiliation:
1. Abai Kazakh National Pedagogical University,Almaty, Kazakhstan
Abstract
This study's objective was to describe students' problem-solving skills. The purposive selection method was used to pick the sample from among 65 participants from 11 classes. Data are gathered via a test of problem-solving aptitude. Its four indicators are problem identification, problem formulation, problem resolution, and problem assessment. Project-Based Learning (PjBL) in Science, Technology, Engineering, and Mathematics (STEM) is increasing efficacy, creating meaningful learning, and influencing student attitudes toward future career pursuits. Project-based learning with a STEM focus causes learning (PjBL). Students' abilities to plan, communicate, solve problems, and come to the best judgments from the difficulties presented are all improved by the learning. Students' abilities to plan, organize, negotiate, and make agreements about the tasks to be completed, who is responsible for each activity, and how the information will be gatheredand presented can be developed through this learning.
Publisher
Abai Kazakh National Pedagogical University
Reference15 articles.
1. [1] Suyatna A. et al. Future physics learning materials based on STEM education: Analysis of teachers and students perceptions //Journal of Physics: Conference Series. –IOP Publishing, 2019. –Т. 1155. –No. 1. –С. 012021.
2. [2] Selçuk G. S., Çalýskan S. The effects of problem solving instruction on physics achievement, problem solving performance and strategy use //Latin-American Journal of Physics Education. –2008. –Т. 2. –No. 3. –С. 1.
3. [3] Yuliati L. et al. Building scientific literacy and physics problem solving skills through inquiry-based learning for STEM education //Journal of Physics: Conference Series. –IOP Publishing, 2018. –Т. 1108. –No. 1. –С. 012026.
4. [4] Setianingrum L. Perno and Sutopo 2016 //Analisis Kemampuan Pemecahan Masalah Fisika Siswa SMK. –С. 37-42.
5. [5] Schweingruber H. A. et al. A framework for K-12 science education: Looking toward the future of science education //Bridge. –2013. –Т. 43. –No. 1. –С. 43-50.