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Engineering and Construction
Pages 5 (1255 words)
One aspect of the current dynamic which cannot be ignored is that the human race has a growing and exponential demand for energy. This energy is required for purposes of heating and cooling, for purposes of computing, and most importantly, at least with respect to this particular analysis, the process of transportation.
Such finite supplies necessitate current technology and development to be concentric upon finding alternate means of locomotion that service the needs of current and future human populations. One of the most relevant alternatives that currently exists within the field of transportation science is of course the prospect of the electric vehicle. Although the technology to produce such vehicles dates back to prior to the Second World War, it is only recently that the forces of environmental preservation, global warming, and the rising cost and ultimate limitations to fossil fuels have brought this technology to the forefront yet again. Yet although electric vehicles offer a great deal of promise, the fundamental scientific proof of thermodynamics must be applied in order for the researcher/reader to understand why electric vehicles have not caught on to a more profound and/or successful degree. As such, the following analysis will consider the second law of thermodynamics as it relates to electric vehicles as well as elucidating a level of discussion as to several other drawbacks that electric vehicles currently exhibit (Tai-Hoon et al. 59). ...
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