law of thermodynamics 中文意思是什麼

law of thermodynamics 解釋
zeroth定律
  • law : n 勞〈姓氏〉。n 1 法律,法令;法典。2 法學;訴訟;司法界;律師(界),律師職務。3 (事物或科學的...
  • of : OF =Old French 古法語。
  • thermodynamics : (熱力學):研究熱和能轉化的科學。
  1. Thermal pollution is an inevitable concomitant of power generationan unavoidable implication of the second law of thermodynamics.

    熱污染是動力生產所無法擺脫的它與熱力學第二定律有著難解之緣。
  2. A third statement of the second law of thermodynamics makes use of a new concept called entropy.

    熱力學第二定律的第三種陳述方式引用了一個叫做熵的新概念。
  3. It was once widely believed that living organisms might be exempt from the second law of thermodynamics.

    人們曾一度廣泛相信,活著的有機體不受熱力學第二定律的制約。
  4. The existence of white holes is hypothetical, as they appear to violate the second law of thermodynamics

    白洞存在是假設的,因為它們似乎違反熱力學第二定律。
  5. The three laws including joule law, gay - lussac law and charles law are simultaneously worked out by use of first 、 second law of thermodynamics and boyle law

    摘要利用熱力學第一、二定律和玻意耳定律,同時導出了焦耳定律、蓋?呂薩克定律和查理定律。
  6. The entropy or number of states of system or subsystem are closely related to interaction of particles and energy level distribution, therefore, to study the temperature dependence of the specific heat may supply some important and useful microscopic information which may play an important role in understanding electronic structure, density of state, phonon spectrum etc. the specific heat measurements at low temperatures also play important roles in the finding of the third law of thermodynamics, the quantum theory of solid and bcs theory for superconducting etc. moreover, specific heat measurements help us to understand the different kinds of phase transitions ( such as : structural phase transition, magnetic phase transition, superconducting phase transition etc. ) and the scaling behavior near the critical point

    系統、子系統的熵或微觀狀態數與微觀粒子間的相互作用及能級分佈密切相關,因此研究比熱與溫度的依賴關系能夠提供被測量系統許多極其有用的微觀信息,對理解固體的電子結構、電子態密度、聲子譜等起著十分重要的作用。低溫比熱的測量和研究對熱力學第三定律、固體量子理論和超導bcs等理論的建立起到了積極的推動作用。比熱研究還有助於認識各類相變如結構相變,磁性相變,超導相變等及臨界點附近的標度規律。
  7. All human beings obey the first law of thermodynamics.

    所有的人都在遵循熱力學的第一定律。
  8. What light does this discussion throw on the second law of thermodynamics ?

    這種討論闡明了熱力學第二定律的什麼問題?
  9. This unexciting generalization from experience is the zeroth law of thermodynamics.

    這個由經驗產生的一般規則即熱力學第零定律。
  10. The second law of thermodynamics points out that the entropy of a isolated system tends upwards, namely, the orderly degree tends downwards. but, schrodinger tell us that the orderly degree of an opening organic system tends upwards through getting “ negative entropy ” from outsides

    熱力學第二定律指出孤立系統的熵趨向增大,即系統的有序程度趨向降低,而薛定諤則指出開放有機系統由於從外界汲取「負熵」從而系統的有序程度趨向增加。
  11. The contradiction this causes is that any object with heat should eventually dissipate it ' s heat energy to its surroundings, and a white hole by definition never runs out of heat or mass, thus standing in violation of every other major law of physics we have in order to hold true to the second law of thermodynamics

    反駁的理由就是任何熱的物體最終會使它的熱能散發到它周圍的環境中,而定義的白洞從來不會失去熱能或質量,這樣就面臨違反了所有我們已經適用的熱力學第二定律其它物理學大定律。
  12. This sounded remarkably similar to the second law of thermodynamics, with area playing the role of entropy

    這聽起來非常類似熱力學第二定律,由於區域扮演熱力學熵的角色。
  13. In the fields of fluid dynamics, entropy inequality reflects the second law of thermodynamics. i. e. entropy must increase across shock waves ( a kind of discontinuity ). all kind of approximate schemes should reflect the fact that it must satisfies some kind of discrete entropy inequality ). from the view of practical computation, stability and theo - retical error of any kind discrete schemes all dependend of the smoothness of the solution of ( 0. 2. 1 ). generally, the approximate solution have good stability and theoretial error in the area where the solutions have more regularity and poor stability and theoretial error in other area

    從流體力學來看,它事實上是熱力學第二定理的反映,即熵越過激波(一種間斷)要增加。各種估計格式構造的估計解應反映這一事實,即滿足熵不等式。從實際計算來看,總是通過離散化求解,不考慮計算的積累誤差,它的穩定性與計算精度都依賴與真解的光滑性,一般說,在解較光滑的區域有較好的穩定性與計算精度,而在較粗糙的區域則相反。
  14. British physicist who established the mechanical theory of heat and discovered the first law of thermodynamics

    很明顯,冷凍機是一種物理系統,因此它不僅必須遵從第一定律(能量定恆) ,也必須遵從熱力學的第二定律。
  15. Clearly, a refrigerator, which is a physical system must obey not only the first law ( energy conservation ) but the second law of thermodynamics as well

    很明顯,冷凍機是一種物理系統,因此它不僅必須遵從第一定律(能量定恆) ,也必須遵從熱力學的第二定律。
  16. The equilibrium thermal radiation in a flat space - time or a curved space - time behaves like planck black spectrum represented with coordinate quantities. we regard the fact that the radiation from a thermal equilibrium system shows planck black spectrum as a basic physics law, from which it is demonstrated that the transitivity of clock rate synchronization is equivalent to the zeroth law of thermodynamics. the condition of clock rate synchronization is weaker than that constructing simultaneity surfaces. in the space - time satisfying the condition of clock rate synchronization, the zeroth law of thermodynamics is valid. on the other hand, in the space - time where the zeroth law is valid, one can define an identical clock rate

    平直或彎曲時空中的平衡熱輻射,表現出用坐標量表示的普朗克黑體譜.把熱平衡系統的輻射具有普朗克黑體譜作為一條基本的物理規律,以此為基礎,論證鐘速同步的傳遞性等價于熱力學第零定律.鐘速同步的條件比建立同時面的條件要弱.滿足這一條件的時空,熱力學第零定律在其中成立.第零定律成立的時空,一定可以定義統一的鐘速
  17. Classically, one could violate the second law of thermodynamics by material entering a black hole disappearing from our universe and resulting in a decrease of the total entropy of the universe

    經典地,一個靠材料進入黑洞從我們的宇宙消失而且造成宇宙總熵減少就違反了熱力學第二定律。
  18. In order to understand the relationships between time, history and arrative, this paper borrows the concept of " the arrow of time " from the second law of thermodynamics to discuss the nature of time as found in both history and narrative

    摘要為了探究時間與歷史、時間與敘事之關系,本文嘗試引入熱力學時間箭頭的概念,以論述歷史與敘事中的時間。
  19. Firstly, based on the utilization of the first and second law of thermodynamics, the ideal combined camot cycle model is set up. secondly, aimed at the insufficient of the classical thermodynamics analysis method, the popular method - - finite time thermodynamics analysis is applied to set up the model of endo - reversible combined carnot cycle. finally, the optimization relationships between the specific heating load ( shl ) and operating parameters and between shl and cop are conducted according to the characteristics of the function and investment of aht

    在首先利用熱力學第一、二定律分析方法的基礎上,建立了吸收式熱變換器的理想聯合卡諾循環模型,然後針對經典熱力學分析方法的不足,利用了當前很流行的有限時間熱力學分析手段,建立了aht系統內可逆聯合卡諾模型,根據熱變換器的功能、投資等方面的特點,導出了吸收式熱變換器比供熱率與操作參數、比供熱率與熱力學性能系數的優化體系。
  20. The third law of thermodynamics

    熱力學第三定律
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