Natural science in secondary school: Many advantages but many disadvantages

After four years of implementing the 2018 GeneralEducation Program, secondary schools have completed a teaching cycle from grades 6 to 9. This is an important time to evaluate the results achieved, identify practical difficulties and propose adjustments to ensure the program is practical, effective and sustainable.

Positive and existential

The Ministry of Education and Training is reviewing and adjusting the content of a number of subjects to suit the merger of localities and the implementation of the two-tier local government model. Therefore, reviewing the model of organizing the teaching of natural sciences at the secondary level is extremely necessary in the current context.

The implementation of natural science subjects over the past four years has shown many positive results. The integrated approach to curriculum development helps students approach scientific knowledge from an interdisciplinary perspective, closely linked to practice, thereby developing the ability to think scientifically, solve problems and apply knowledge to life, which is one of the outstanding advantages.

At the same time, the program creates conditions for innovation in teaching methods, diversifying forms of testing and assessment, enhancing the role of practice, experiments and practical experience activities.

However, there are also notable notable. First of all, there is a mismatch between the integrated model and the capacity of the teaching staff. Most secondary school teachers are currently trained in only one subject, while the curriculum requires interdisciplinary teaching. This leads to confusion, overload, and even misalignment in teaching, especially in grades 8 and 9, where the learning content is increasingly specialized.

In addition, the way of organizing teaching topics according to organized in parallel to solve the difficulty of not having teachers to teach all the topics of natural science easily makes the content lose coherence, lacking logical development between concepts and topics.

Many teachers prepare lessons in the direction of "content aggregation" rather than intentional designing connections, causing students to learn in a fragmented way and lack a systematic thinking foundation. This is a major barrier to the formation of sustainable scientific thinking, especially for natural science subjects.

Proposed solution

Based on practical analysis and development requirements, adjusting the content of natural science subjects towards integration at the beginning of the level and differentiation at the end of the level is a reasonable and feasible choice.

specifically, grades 6 and 7 should continue to implement integrated teaching by topic, linking knowledge with practice, experience and training in synthesis skills. This is the stage of forming a foundation of scientific thinking and stimulating students' interest in learning.

From grade 8, the program needs to shift to differentiation, so the content and teaching organization should be adjusted according to three separate subjects: physics, chemistry and biology.

Each subject should be taught by a specialized teacher, helping to ensure depth of knowledge, supporting entrance exams and creating a foundation for career orientation to continue studying at high school or choosing a suitable vocational training and especially helping students choose physics, chemistry and biology subjects at high school more easily based on scientific basis and their own background, strengths and passions.

This model will help overcome the situation of teachers being overloaded because they have to teach outside their field of expertise, while creating coherence and efficiency in learning.

Along with that, it is necessary to retrain the teaching staff to suit the new orientation. In grades 6 and 7, we need integrated teachers with the ability to design topics and organize experiences; in grades 8 and 9, we need teachers with in-depth expertise in each subject.

At the same time, the Ministry of Education and Training needs to issue professional guidance documents and digital learning materials suitable for each stage of program development. The form of entrance exams for grade 10 specialized high schools also needs to be reviewed and adjusted to be consistent with the program content and guidance on adjusting the content of natural science teaching.

Finally, it is necessary to increase investment in teaching conditions such as laboratories, practice equipment, and electronic learning materials, especially in disadvantageous areas. At the same time, there needs to be a mechanism to monitor and evaluate the effectiveness after adjustment to continue to perfect policies based on scientific and practical evidence.