References
- Chang, J. (2019). Exploring the practice and research of primary science education from the perspective of future education. Chinese Education Journal, 20(S2), 73–75.
- Fan, W., Zhuang, H., & Li, L. (2020). Promoting the construction of students’ science capital: A new perspective of the development of science education. China Electronic Education, 20(03), 42–48.
- Feng, H. (2019). View of the nature of science: The key to play the value of science education. Management of Primary and Secondary Schools, 20(11), 15–17.
- Han, S., & Luo, Y. (2019). New progress of science education research: A new generation of Science education evaluation in the United States. Teaching Materials. Teaching Method, 39(06), 131–137.
- Lan, Y., & Wang, Z. (2021). International experience and enlightenment of interdisciplinary understanding ability measurement in science education. China National Examination, 2021(08), 69–78.
- Tian, W., Xin, T., & Hu, W. (2021). Science education in compulsory education: Key issues and countermeasures. Journal of Beijing Normal University (Social Sciences Edition), 20(03), 82–91.
- Wei, L., & Jia, J. (2010). New trends and enlightenment of science education research in the United States – Promoting the consistency of curriculum, teaching and evaluation with "Learning process”. Curriculum, Textbook and Teaching Method, 30(10), 98–107.
- Wei, R. (2019). How science education promotes students’ "learning to think”. Science and Society, 10(03), 22–31.
- Yan, X., Pei, X., & Zheng, Y. (2018). Thoughts and suggestions on the development of science education in China. Science and Society, 28(03), 13–21.
- Zhou, J., & Wang, Z. (2018). Computational thinking in science education: Theoretical framework and curriculum design. China Electronic Education, 20(11), 72–78.