quantum mechanics 中文意思是什麼

quantum mechanics 解釋
量子力學。

  • quantum : n. (pl. -ta )1. 量,額;定量,定額;份;總量。2. 【物理學】量子。
  • mechanics : n. pl. 1. 〈作單數用〉力學 〈cf. statics; kinetics; kinematics〉; 機械學。2. 〈作復數用〉結構;構成法;技巧。
  1. Pauli deduced the principle from spectroscopic data prior to the advent of quantum mechanics.

    泡利是在量子力學出現以前,根據原子光譜的數據導出這個原理的。
  2. Formula 2 - 12 as the basic function of quantum mechanics has long been an assumptive or experiential equation, but under complex function of analytical space - time, schrdinger wave function becomes the deduction from tast

    2 - 12式即量子力學的基本方程,在量子力學中它是一種假設方程,在解析時空的復變函數下,薛定諤
  3. Quantum mechanics scored first in providing an explanation of atomic structure.

    量子力學首先在提供對原子結構的說明中取得成功。
  4. These results are derivable from the theory of quantum mechanics.

    這些結果是根據量子力學理論推導出來的。
  5. Despite several decades of trying, scientists have failed to fit einstein ' s general theory of relativity, which describes how gravity holds big objects together, with the quantum mechanics he pioneered, which describes the tiny fundamental particles of which matter consists and the forces by which they interact

    盡管經歷了數十年的刻苦鉆研,科學家們仍然無法將愛因斯坦的廣義相對論與他所開拓過的量子理論統一在一起? ?這兩個理論前者是描述引力如何將大型天體維系在一起,後者則是描述組成物質的微小基礎粒子以及粒子之間的相互作用力。
  6. The being with consciousness must have a different role in quantum mechanics than the inanimate measuring device.

    在量子力學中有意識的人必定比無生命的測量裝置有不同的作用。
  7. Course 1 makes heavy use of quantum mechanics.

    第一種課程大量應用量子力學。
  8. Quantum mechanics is basically statistical in nature.

    量子力學本質上基本是統計性的。
  9. Our usual vocabulary is not quite a match for the nuances of quantum mechanics.

    我們通常的詞匯與量子力學的意義不太匹配。
  10. Quantum mechanics is an unambiguous and quantitative theory.

    量子力學是一個明確的和定量的理論。
  11. Application of quantum mechanics to atomic structure, molecular bonding, and spectroscopy gives us quantum chemistry.

    將量子力學應用於原子結構,分子鍵及光譜學即形成量子化學。
  12. In quantum mechanics the particle need not have a definite energy.

    在量子力學中,粒子並不需要具有確定的能量。
  13. The results of this section lie at the very heart of quantum mechanics.

    本節的結果是量子力學所深切關心的問題。
  14. Newton mechanics is no more than an approximate version of quantum mechanics.

    牛頓力學只是量子力學的一種近似描述。
  15. We must now see how quantum mechanics accounts for these results.

    現在我們就必須看一下量子力學是如何解釋這些結果的。
  16. The course introduces applied quantum physics and emphasizes an experimental basis for quantum mechanics

    此課程介紹應用量子物理,強調量子力學的實驗基礎。
  17. Quantum mechanics is such a rain forest of a theory, filled with indescribably weird animals and endlessly explorable backwaters, that seeking to reduce it to classical physics seems like trying to grow the amazon from a rock garden

    量子力學就像是一座雨林,充滿無法形諸筆墨的珍奇動物以及無數有待探索的偏僻水域,要將它歸納入古典物理之中,就好比試圖在一座光禿禿的巖石公園中種植出亞馬遜森林。
  18. An explanation for the “ uncertainty principle ” for quantum mechanics

    量子力學的測不準原理解釋。
  19. The uncertainty principle of quantum mechanics states that both the position and the momentum cannot simultaneously be known with infinite precision at the same time

    既是位置又是動量的量子力學態測不準原理在同一時間以無限精確不能同時被知道。
  20. Quantum mechanics and relativity have revealed the boundaries of validity of classical mechanics.

    量子力學和相對論,揭示了經典力學的適用范圍。
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