| 1. | Course 1 makes heavy use of quantum mechanics . 第一种课程大量应用量子力学。 |
| 2. | Quantum mechanics is basically statistical in nature . 量子力学本质上基本是统计性的。 |
| 3. | Quantum mechanics is an unambiguous and quantitative theory . 量子力学是一个明确的和定量的理论。 |
| 4. | 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。 |
| 5. | 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。 |
| 6. | The results of this section lie at the very heart of quantum mechanics . 本节的结果是量子力学所深切关心的问题。 |
| 7. | 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。 |
| 8. | 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。 |
| 9. | A full quantum mechanical calculation leads to precisely the same formula . 一个纯粹量子力学的计算得到了完全相同的结果。 |
| 10. | 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。 |