Plant Journal (플랜트 저널)

Korea Institute of Plane Engineering and Construction (한국플랜트학회)
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Suggestion of the Five Laws for Integral Studies

통합학문 5대 법칙의 제안

  • Received : 2017.06.09
  • Published : 2018.03.22
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Abstract

Current study is the era of fusion, and future study is the era of integration. The prerequisite of study integration is that all studies must be equal to each other, and only laws derived from natural laws can achieve the equivalence of integration. We suggest that the ability to make change is defined as energy. All things change, the change necessarily has directionality, therefore change and directionality apply equally to all studies. The zeroth law of integral studies is the law of existence, the first law is the law of change conservation, the second law is the law of increasing non-available change, the third law is the law of the guidelines, and the fourth law is the law of fusion. The above laws are very similar to the law of thermodynamics. The ultimate aim of the five integral laws is the realization of a community in which natural, human, and AI individuals cooperate and develop each other on the earth.

과거의 학문은 기초의 시대이며, 현재의 학문은 융합의 시대이며, 미래의 학문은 통합의 시대이다. 학문 통합의 필수 조건은 모든 학문이 서로 동등해야 한다는 것이며, 오직 자연법칙으로부터 파생된 법칙만이 통합의 동등성을 구현할 수 있을 것이다. 변화를 일으킬 수 있는 능력을 에너지로 정의할 것을 제안한다. 만물은 변화하며 그 변화에는 방향성이 필히 존재하므로, 변화와 방향성은 모든 학문에 동등하게 적용된다. 통합학문의 제 0 법칙은 존재의 법칙, 제 1 법칙은 변화 보존의 법칙, 제 2 법칙은 무효변화 증가의 법칙, 제 3 법칙은 지침의 법칙, 그리고 제 4 법칙은 융합의 법칙이다. 위 법칙들은 열역학의 자연법칙과 매우 유사함을 볼 수 있다. 통합학문 5 대 법칙의 최종 목표는 지구상에서 자연, 인간, 인공지능 개체들이 서로 협력하여 발전하는 공동체의 구현이다.

Keywords

References

  1. Kim, D. J., 2015, "Suggestion of Environmental Thermoeconomics," Proceedings of the Korea Institute of Plant Engineering & Construction, Conference, pp. 95-98.
  2. Kim, D. J., 2015, "Suggestion of Non-used Energy Emission Right," Proceedings of the Korea Institute of Plant Engineering & Construction, Conference, pp. 99-102.
  3. Kim, D. J., 2016, "Thermodynamic Certification for Environmental Rights," Proceedings of the Korea Institute of Plant Engineering & Construction, Conference, pp. 105-108.
  4. Kim, D. J., 2016, "Thermodynamic Calculation for Certified Emission Reduction Price," Proceedings of the Korea Institute of Plant Engineering & Construction, Conference, pp. 38-42.
  5. Kim, D. J., 2017, Mommy black hole cosmology, EnTEs, Kwang-Yang, pp. 225-271.
  6. Kim, D. J., 2008, "A Suggestion for the Worth Evaluation of Warm Air and the Allocation Methodology of Heating Cost," Korean journal of Air-Conditioning and Refrigeration Engineering, Vol. 20, No. 10, pp. 654-661.
  7. Carolyn, G., 2003, Regulation of heat and electricity produced in combined-heat-andpower plants, The world bank, Washington, D. C.
  8. Abusoglu, A., Kanoglu, M., 2009, "Exergoeconomic Analysis and Optimization of Combined Heat and Power Production: A Review," Renewable and Sustainable Energy Reviews, Vol. 13, pp. 2295-2308. https://doi.org/10.1016/j.rser.2009.05.004
  9. Kim, D. J., 2010, "A New Thermoeconomic Methodology for Energy Systems," Energy, Vol. 35, No. 1, pp. 410-422. https://doi.org/10.1016/j.energy.2009.10.008