degenerate state

简明释义

简并态

英英释义

例句

1.In a degenerate state, the system loses its ability to function effectively.

在退化状态下，系统失去了有效运作的能力。

2.During the experiment, the chemical compound was found to be in a degenerate state after repeated heating.

在实验过程中，发现该化合物在经过多次加热后处于退化状态。

3.The economy was described as being in a degenerate state due to high unemployment rates.

由于高失业率，经济被描述为处于退化状态。

4.The artist's work reflected a society in a degenerate state, filled with chaos and confusion.

艺术家的作品反映了一个处于退化状态的社会，充满了混乱和困惑。

5.The researchers observed that the material entered a degenerate state when subjected to extreme pressure.

研究人员观察到该材料在遭受极端压力时进入了退化状态。

作文

In the realm of physics and chemistry, the term degenerate state refers to a condition where two or more quantum states share the same energy level. This phenomenon is particularly significant in the study of atomic and molecular structures, as it can lead to various implications in the behavior of particles and their interactions. To better understand this concept, we must first delve into the fundamentals of quantum mechanics. Quantum mechanics describes the physical properties of matter at very small scales, such as atoms and subatomic particles. In this domain, particles do not behave in the same manner as larger objects; instead, they exist in states defined by probabilities rather than certainties. When multiple particles occupy the same energy level, they are considered to be in a degenerate state.简并态 This situation can occur in systems like electrons in an atom, where two electrons can have the same energy but differ in other quantum numbers, such as spin.The significance of degenerate states简并态 extends beyond mere theoretical interest; it has practical applications in various fields. For instance, in the design of semiconductors, understanding how electrons occupy these states can influence the conductivity of materials. When electrons are excited to higher energy levels, they leave behind vacancies in the degenerate states简并态, which can affect the overall electronic properties of the material.Moreover, in astrophysics, the concept of degenerate states简并态 plays a crucial role in the life cycle of stars. When a star exhausts its nuclear fuel, it can collapse under its own gravity, leading to the formation of white dwarfs or neutron stars. These stellar remnants exhibit degenerate states简并态 due to the Pauli exclusion principle, which prevents identical fermions (like electrons and neutrons) from occupying the same quantum state. This resistance to compression results in the unique characteristics of these astronomical objects, such as their incredibly high densities.In addition to its scientific implications, the idea of degenerate states简并态 can also be metaphorically applied to societal issues. A society in a degenerate state简并态 may be one that has lost its moral compass or has become stagnant in its development. Just as quantum systems can become trapped in these energy levels, societies can find themselves in a rut, unable to progress or innovate. Recognizing the signs of a degenerate state简并态 within a community can be the first step toward revitalization and positive change.In conclusion, the concept of degenerate states简并态 is multifaceted, impacting both the microscopic world of quantum mechanics and the macroscopic realm of societal dynamics. By exploring these connections, we can gain a deeper appreciation for the complexities of both nature and human behavior. Understanding degenerate states简并态 allows us to appreciate the intricacies of life, whether it be through the lens of science or the examination of our own societal structures.

在物理学和化学领域，术语degenerate state指的是两种或多种量子态共享相同能量水平的状态。这一现象在原子和分子结构的研究中尤为重要，因为它可能导致粒子及其相互作用行为的各种影响。为了更好地理解这一概念，我们必须首先深入量子力学的基本原理。量子力学描述了物质在非常小的尺度上的物理特性，如原子和亚原子粒子。在这个领域，粒子的行为与较大物体不同；相反，它们以概率而非确定性的方式存在。当多个粒子占据相同的能量水平时，它们被认为处于degenerate state。简并态这种情况可以发生在原子中的电子等系统中，其中两个电子可以具有相同的能量，但在其他量子数（如自旋）上有所不同。degenerate states简并态的意义超越了单纯的理论兴趣；它在各个领域都有实际应用。例如，在半导体设计中，理解电子如何占据这些状态可以影响材料的导电性。当电子被激发到更高的能量水平时，它们会在degenerate states简并态中留下空位，这可能会影响材料的整体电子特性。此外，在天体物理学中，degenerate states简并态的概念在恒星的生命周期中起着至关重要的作用。当一颗恒星耗尽其核燃料时，它可能在自身引力的作用下坍缩，导致白矮星或中子星的形成。这些星体残骸由于泡利不相容原理而表现出degenerate states简并态，该原则阻止相同的费米子（如电子和中子）占据相同的量子态。这种对压缩的抵抗导致了这些天体的独特特征，例如它们极高的密度。除了科学影响外，degenerate states简并态的想法还可以隐喻性地应用于社会问题。处于degenerate state简并态的社会可能是一个失去道德方向或在发展中停滞不前的社会。正如量子系统可能被困在这些能量水平一样，社会也可能发现自己陷入困境，无法进步或创新。识别社区中degenerate state简并态的迹象可以成为复兴和积极变革的第一步。总之，degenerate states简并态的概念是多方面的，影响着量子力学的微观世界和社会动态的宏观领域。通过探索这些联系，我们可以更深入地理解自然和人类行为的复杂性。理解degenerate states简并态使我们能够欣赏生活的复杂性，无论是通过科学的视角还是对我们自身社会结构的审视。