Science courses which contribute towards general education, emphasizing the fundamental unity of scientific thought, and leading towards an understanding of the place of science in contemporary society. Integrated science teaching avoids unnecessary repetitions and permits the introduction of intermediate disciplines. Such courses aim to present science in a coherent way, and to avoid premature or undue stress on the distinctions between the various scientific fields. They emphasize the underlying methodology and processes which characterize the scientific outlook. By a judicious choice of experience and activities, students learn how to think productively about the natural world and man's interaction with it by calling upon knowledge and skills from the various parts of science as needed.
To some degree the concept of integrated science teaching is based on the parallel assumptions that the universe has an inherent unity and that science as an attempt to provide an understanding of the natural world has a unity of purpose, content and process that is far more significant than the differences in language or focus between individual sciences. Those who press for integrated science teaching usually make the further assumption that the teaching of any subject should in some way reflect the nature of the subject itself. If the natural sciences are becoming integrated in their intellectual structure and are already unified methodologically, then, according to this assumption, science teaching should emphasize this by itself being integrated.
It is useful to think of integrated science courses as being of four kinds:
1. Those that integrate the subject matter from various subdivisions of a major science. (e.g. physics as a unified structure of ideas rather than as essentially separate courses in classical mechanics, heat, light, sound, electricity, and magnetism, etc.)
2. Those that blend two or more sciences in similar proportions. (It is not uncommon, for example, for earth science courses to place roughly equal emphasis on astronomy, meteorology, oceanography, physical geography, and geology.)
3. Those that blend two or more sciences together, but with a strong bias toward one. The difference between this and the previous category is essentially a matter of emphasis.
4. Those that select content as described in any one of the above three categories, but in addition, integrated material from the non-sciences. In this group are courses that pay attention to the philosophical underpinnings of science, to the development of scientific ideas and to the social consequences of science and technology.
For a course or programme to be considered truly integrated, it is necessary that the concepts of science be presented through a unified approach. A unified approach can be designed in a variety of ways, such as:
1. The conceptual schemes approach: Structural unity may come from designing a course around broad conceptualizations, the so-called big ideas of science. Concepts are selected for such a course that naturally make connections with various sciences. (e.g. conservation of energy, atomicity, dynamic equilibrium and change through time).
2. The inquiry approach: Problem solving activities can also be used as a unifying organizational scheme. In this approach, the science teacher raises, or guides students to raise, interesting questions about the natural world that challenges them to seek answers and that necessarily involve them in the substance of many sciences.
3. The relevance approach: This might be further sub-divided into the environmental science and applied science approaches. It is possible to structure an integrated science course around questions of the social relevance and utility of science. Issues such as whether or not to locate nuclear reactors in geologic fault zones, the propriety of organ transplants, controlling the population, and problems of nutrition and health, are examples of what will necessarily involve students in exploring ideas from various sciences, as well as from social ethics.
4. The process approach. It is also possible to design an integrated science course in which the focus is the process of science rather than the content of any discipline. (e.g. how to ask fruitful questions, develop working hypotheses, collect relevant data, analyze it and make sensible judgments, takes precedence, in such a course over the mastery of a prescribed body of scientific knowledge.)