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发表于 2021-1-2 15:59:54
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Article 5. The Principal of Thermodynamics: Specific Heat Capacity and Material/热力学原理:比热容与材料
Author: Liu Huan, MSc (First Class Honours), The University of Auckland.
As discussed above, once the transmission direction of generated electromagnetic waves is opposite to the incident angle of light waves, these two electromagnetic waves of the same frequency offset each other rather than strengthening each other. However, this is the reversible process as well. Only higher intensity of electromagnetic waves from external thermal sources, which have the same frequency as the electromagnetic waves emitted by the molecule motion of receptor objects, is able to ‘heat’ the receptor objects. However, the thermal energy, in terms of temperature ascending or descending capacity, varies among different frequencies of electromagnetic waves. Consequently, if the frequencies of electromagnetic waves emitted by the molecule motion of receptor objects is the frequencies leading to higher thermal energy, in terms of higher thermal energy caused by temperature change per unit, then the specific heat capacity of this receptor object is higher! In this case, the efficiency of specific heat capacity is the not linear relationship with the increased frequency of electromagnetic waves emitted by materials (not received by materials), due to the buffering effects of dark matter.
This is the revised materials in book “Proceedings for Degree of Postgraduate Diploma in Environmental Science (3rd Edition).” published in 2016. Revised on 31/12/2020.
References:
All the science terms in English of this journal source from Wikipedia:
https://encyclopedia.thefreedictionary.com/;
本文所有中文科学专业术语引用自百度百科 https://baike.baidu.com/。 |
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