The role of technology and science in future architecture will most likely be discussed by someone who lives all her life in the United States and who has spent her life studying the science and technology that underlie modern architecture. While it may be true that much of the technology of the future will not be seen right now, much of what is being developed is headed for that very realization. As the baby boomer generation ages and the rest of their country become less reliant on scientific and technological advancements, the role of technology and science in the future architecture of the world will no doubt be a topic of much debate. What are some of the advances that are now underway?
The advances that are being made in the realm of technology and science today are vast, but they are certainly not all new. For instance, one of the most profound effects of the Roennethal Model of architecture was the introduction of the term Rosenberg, which was used to designate the basic research that architects used as they conceptualized the structure of their modern buildings. In essence, the architect drew out the basic shapes and sizes of the buildings using mathematical equations and then worked with geometrical data to determine how these basic shapes would fit together. When these buildings were completed, it was found that there were amazing composites of light and shadow, as well as strong vertical lines that crisscrossed the floors and walls of the buildings. This type of technological advancement is only going to become more commonplace.
There are many other advances in technology and science today that directly pertain to the field of fundamental research. One example is that scientists have developed a way to control fire. Without the use of fuel and without any combustion, they can now simply convert heat into electricity and use this to power everything from lighting to heating the home. If this advance is ever made available to the general public, the cost of fuel would plummet and the economy could become dependent on renewable sources of energy. In the meantime, scientists and engineers continue to make progress in this area all the time.
Another example of fundamental research that is occurring in future times comes from the world of industrial science. Most people think of the aerospace industry when discussing the realm of industrial science, but in fact it is just as important to think about what goes on within the realm of industrial manufacturing plants. These plants utilize a variety of different technologies, some of which are derived from faseb. Faseb is an acronym for the elements fluorine, chlorine, bromine, and nitrogen. These six elements are the basis of many of the technologies used in industrial production plants.
Fundamental researchers also look at other forms of energy production, both renewable and nonrenewable. These types of technologies could play a significant role in the economic benefits of the nation, if they were able to be developed and produced economically, without creating environmental problems along the way. The process by which nonrenewable resources are harvested can also have a profound effect on the nation. The harvesting of oil and gas should be considered, for example, but if that harvesting occurs without regard for the environment, it will have significant negative consequences. Such national priorities must be given high regard in the effort to develop new resources, and it is not enough for scientists and engineers to only develop the technology that is able to be implemented in domestic circumstances.
It is also important for the Nation to focus its efforts on finding these technologies in its natural environments. As the world increases its demand for faseb, we can expect to see an increased dependence on such resources, and that dependence will only increase as other resources are depleted. If fundamental researchers continue to pursue the understanding of laser and other renewable and nonrenewable technologies, the benefits to the Nation will be tremendous, both economically and environmentally.