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- Quantum Mechanics Supplement 量子力学补充
- Course 1 makes heavy use of quantum mechanics. 第一种课程大量应用量子力学。
- IS THERE ANY QUANTUM MECHANICS IN A FINITE SPACE? 有限空间里可不可以有量子力学?
- Quantum mechanics is Greek to me. 我对量子力学一窍不通
- Can Quantum Mechanics be considered complete? 量子力学是完备的吗?
- R.Shankar, Principles of Quantum Mechanics. 高等量子力学,喀兴林著。
- The decoherence in quantum mechanics is studied. 介绍了量子力学的退相干理论.
- She is ignorant of quantum mechanics. 她对量子力学一窍不通。
- Quantum mechanics is basically statistical in nature. 量子力学本质上基本是统计性的。
- These results are derivable from the theory of quantum mechanics. 这些结果是根据量子力学理论推导出来的。
- We must now see how quantum mechanics accounts for these results. 现在我们就必须看一下量子力学是如何解释这些结果的。
- Quantum mechanics is an unambiguous and quantitative theory. 量子力学是一个明确的和定量的理论。
- Because quantum mechanics had not yet been discovered. 因为量子力学还没有发现呢。
- In quantum mechanics the particle need not have a definite energy. 在量子力学中,粒子并不需要具有确定的能量。
- For details, see the article on measurement in quantum mechanics. 详细资料请看量子力学测量的文章。
- The fundamental rules of quantum mechanics are very broad. 量子力学的基本法则是广泛的。
- J.D.Bjorken and S.D.Drell, Relativistic Quantum Mechanics. 量子力学,张永德著。
- Quantum Mechanics and Path Integrals\Feynman, Hibbs. 物理补充\\量子力学\\Feynman; Hibbs.
- Newton mechanics is no more than an approximate version of quantum mechanics. 牛顿力学只是量子力学的一种近似描述。
- Our usual vocabulary is not quite a match for the nuances of quantum mechanics. 我们通常的词汇与量子力学的意义不太匹配。
