Technology is the systematic application of scientific knowledge to the practical aims of human life. It encompasses a wide variety of fields, such as medicine, science, transportation, and everyday life. The definition of technology may be somewhat vague, but it is best defined as a path toward a practical end. There are many forms of technology, but here are some common examples:
Technology is the application of scientific knowledge to the practical aims of human life
Technology is the systematic application of knowledge to achieve practical goals. These goals include the improvement of life and the use of advanced machinery, devices, and materials. Technology is an important part of the human experience and is found in many fields.
It is an artifact made through a systematic application of knowledge
Technology is a form of knowledge applied to an artifact. As such, it is a creation that is not a natural object but rather an imitation. While history has shown the successes and failures of technology, it cannot always predict the future. Human society is too complex to reduce to simple causes and effects, and technology cannot be viewed as the sole agent of change.
It encourages risk-taking
Technology is a powerful tool that can help teachers and students encourage positive risk-taking. It can help students learn from mistakes and grow as people. By giving students challenging puzzles to solve, technology can sharpen students’ minds and motivate them to take risks. After all, risk-taking is an essential part of life.
It is not a product of science
The development of a technology does not result directly from the findings of a science. Instead, the development of a technology must be guided by practical experience and common sense. Moreover, technological advancement must meet certain criteria of usability, utility, and safety. The application of scientific knowledge to concrete purposes requires the involvement of engineers and craftsmen.
It does not require rigorous science
The definition of rigorous science is not as clear-cut as one might think. It varies greatly depending on the nature of physical phenomena and the limitations of scientific methods. In general, rigorous science is a process that increases confidence in the veracity of its findings. For example, if you are conducting research to determine the mass of a comet colliding with the sun, rigorous science is needed to accurately measure its composition, mass, and trajectory. If you use an experimental method to make such a measurement, you cannot replicate the results. But if the measurements are made with rigorous science, it will be easier to reproduce them.