When talking about Science-Technology-Engineering-Math (STEM) in education, we need more precise descriptions of WHAT the topic content of science is, what we DO with science, and how we APPLY it to the world around us. When I refer to “STEM” as a “table of contents”, I also recognize that the artistic methods of visualizing, writing, and finding context in culture and history are important to the process and procedures of “doing science”. So, put into the standard sentence structure, the “STEM content” is the subject, the “artistic method” is the verb, and the “real-world application” is the object.
What we need, I believe, is a comprehensive, modularized curriculum framework, beginning with the STEM content delivered in high schools and colleges. The content of each module and lesson would be provided by “experts”, and then packaged by instructional technologists using “best practices” for learning with interactive multimedia, and finally made available using open-source, online delivery channels.
The content modules within this framework would have the STEM topics arranged in a sequence as one dimension. A second dimension would then be a tag or label that clearly identifies the “Basic Workplace Skill Set” needed for successful entry into several occupational levels, starting with “Home & Consumer” to “User/Operator” and so on to “Engineer”, and “Scientist”.
Connections with the Communication, Social, and Cultural Arts (CSCA) would be specified with the appropriate techniques, methods, and practices used in these occupational skill levels. These processes and activities would be developed in collaboration with specialists from non-STEM areas.
The grid would then be expanded and cross-connected with Career & Technical Education (CTE) pathways, so students could select applications and projects relevant to their career interests and preferences.
Such a framework, then, would allow students to pursue their own pathways through the multi-dimensional learning space of possibilities along the three content, skill level, and career directions. They would also meet required standards by touching certain “milestones” along the way,. There would be flexibility to participate in collaborative classroom projects, while stepping up the proficiency ladder to advanced and related topics at their own pace, using online resources.