Revolutionizing science teaching using metacognitive strategies
Author(s): Ankita and Kumar Khagendra
Abstract: Science education plays a crucial role in equipping learners with the skills needed to address real-world challenges and foster innovation. However, traditional methods of science teaching, such as lecture-based delivery and rote memorization, often fail to engage students or promote deeper understanding and critical thinking. Metacognitive strategies-defined as the ability to plan, monitor, and evaluate one's own cognitive processes-offer a transformative approach to science education. These strategies empower students to take ownership of their learning, enabling them to become self-regulated learners capable of tackling complex scientific problems. This study explores the potential of metacognitive strategies to revolutionize science teaching by shifting the focus from passive knowledge acquisition to active, reflective and experiential learning. It examines how these strategies can enhance student engagement, foster critical thinking, and promote problem-solving skills through practical techniques such as self-questioning, reflective journaling, think-aloud protocols, and collaborative discussions. The integration of digital tools, such as online simulations and interactive learning platforms, further enhances the effectiveness of these methods. The study also addresses challenges in implementing metacognitive strategies, including resistance to change from traditional teaching practices and varying levels of student readiness. To overcome these barriers, the study emphasizes the importance of professional development programs for educators and phased implementation approaches.
DOI: 10.22271/multi.2024.v6.i11b.561Pages: 114-119 | Views: 39 | Downloads: 9Download Full Article: Click Here
How to cite this article:
Ankita, Kumar Khagendra.
Revolutionizing science teaching using metacognitive strategies. Int J Multidiscip Trends 2024;6(11):114-119. DOI:
10.22271/multi.2024.v6.i11b.561