1, Interdisciplinary Teaching: Combining STEM education with science, mathematics, information technology, physics, chemistry and other disciplines, taking problem as the guide, interdisciplinary teaching, cultivating students' comprehensive ability.

2. Develop related courses: Schools can develop STEM courses, specifically for the characteristics of STEM education, and strengthen students' practicality and creativity.

3. Strengthen the construction of STEM laboratories: Schools can build STEM laboratories to provide students with places for practice and exploration, so that students can learn and explore independently and stimulate their interest in learning.

4. Strengthening the construction of teaching staff: Schools should strengthen the training of STEM teachers, strengthen their STEM educational concepts and professional knowledge, and improve their teaching ability.

5. Introduce STEM competition: Schools can organize STEM competitions, so that students can learn and grow in the competition and improve their hands-on ability and creativity. To integrate STEM education into the primary and secondary education system, it is necessary to improve students' comprehensive and practical abilities through interdisciplinary teaching, related courses, laboratory construction, teacher team construction and competition activities.

The Significance of STEM Education

STEM education refers to an educational model that integrates science, technology, engineering and mathematics into the teaching process and cultivates students' interdisciplinary thinking mode, problem-solving ability and creativity. The essence of STEM education is to promote the cross-integration of disciplines. Through inspiring learning methods, students can think more freely and creatively, and carry out practical operations on the basis of practice and experiment, thus promoting their critical thinking, innovation and problem-solving ability. Successful STEM education should include the following elements:

Inquiry learning: STEM education believes that students can discover and solve problems through self-inquiry, which is more meaningful and profound. Therefore, STEM education should encourage students to carry out their own research, scientific exploration and experiments.

Project-based learning: STEM education emphasizes that students need to participate in real projects, so that students can understand goals, needs and solve problems by participating in projects.

Interactive learning): STEM education emphasizes the interaction among students, teachers and classmates, and promotes students' independent thinking ability, creativity and logical thinking through cooperation, consultation and sharing experience.

Technical education): STEM education emphasizes students' technical and design skills, enabling them to have technical skills in computer, mechanical and industrial stages, so as to better cope with the challenges in the future society and workplace. The purpose of STEM education is to make students have the ability to explore, cultivate practical and innovative thinking by solving problems, and play a role in cultivating students to obtain reasonable opportunities in the future global ecology.