The Future Of Scientific Revolution And 3D Printing Theses Examples
Type of paper: Thesis
Topic: Virtual Reality, Technology, Science, Scientific Revolution, Revolution, Future, 3D Printing, Renaissance
Pages: 2
Words: 550
Published: 2021/02/25
The future of scientific revolution ostensibly address the functional competencies of 3D technologies. This trajectory portends the holistic technological competencies anchored on function and intelligent features. The future of scientific revolution demonstrates the emergence of processes that emerged from the 18th and 19th C growth and development. According to Ladhani (2014), it is evident that the result of increased technological transformation, changes in social economic and technological process is likely to alter the landscape of 3D printing. The characteristic degree of personalization and customization of printing products manifest the possible integration of miniaturized features in the health, military and industrial sectors.
Hinz, Eckert, & Skiera (2011) further outline that the earliest 3D printing technology is an initiation of the discoveries in the renaissance. This is aligned to the principles that the growth of scientific revolution embodies the era of renaissance demonstrated by a significant number of breakthroughs of inventions, creativity, and expeditions. The effect of the Renaissance on western art is never ending due to the strength of its ideas in the beauty of its creation that jumpstarted the creation of discoveries.
With the revolutionization of the global mechanism, increased competition among nations, and instability in the world peace demonstrate a current event in scientific revolution. The general consensus among historians is that the future of 3D as a measure of scientific revolution is likely to change the civilization of global ideologies within the military, political, economic, humanitarian and religious interests. The continued force anchored on the acceptance technological innovation and social Darwinians.
The thrust of scientific revolution fosters the anti-thesis direction of renaissance to establish the approach that 3D technologies will take in determining the shape of the future trend. According to Ladhani (2014), it is evident that the estimated change that is anchored on the historical landscape of technological explosion informs the analytic outcome of the earliest 3D innovation through the lens of rapid prototyping. According to Hinz, Eckert, & Skiera (2011), it is evident that while the technological process was a rebirth of the cost effective approach for social and economic paradigms, the growth measure predicts the prolific nature of future of 3D printing technology.
The upsurge and increase in the utilization of the 3D printing system demonstrates a scientific revolution shaped with the incremental improvement on accuracy, speed and materials. The belief that the utility of 3D will cover a wider audience evidences the visibility gains that are likely to be addressed within the technological infusion of source 3D printers. This reflects a generate advancement in the value, form and quality that considers the growth and evolution of 3D as a scientific revolution. The wider context of 3D potential illuminates the inclination of science towards the technology of mass productions. This establishes the trajectory that points to the ability for scientific revolution in the service industry with the requirements of capital intensity, increased consumption and investment measures (Hinz, Eckert, & Skiera, 2011).
The basis of scientific revolution, evidenced in the renaissance curiosity to manifest the principles of natural philosophy. Ladhani (2014) argues that from this perspective, the scientific revolution of 3D printing reveals the role of curiosity in predicting modern science. The future inclination of 3D science is a measure on new integrated technology to reflect the increase in the value of technologies based on the fashion landscape of the technological significance and the implications of the social economics. This principle coupled with the industrial technology give the global powers the advantage of scientific revolution that result in an adjustment framework for the way of life.
Reference List
Hinz, O, Eckert, J, & Skiera, (B 2011), 'Drivers of the Long Tail Phenomenon: An Empirical Analysis', Journal of Management Information Systems, 27, 4, pp. 43-69.
Ladhani, N. (2014). 3D Living in a 3D World. Social Policy, 44(4), 63.
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