excited condition

简明释义

激发条件;

英英释义

例句

1.When the gas is heated, it enters an excited condition, leading to the emission of light.

当气体被加热时，它进入激发态，导致发出光。

2.The laser operates by stimulating atoms into an excited condition to produce coherent light.

激光通过刺激原子进入激发态来产生相干光。

3.The fluorescence occurs when electrons drop from an excited condition back to a lower energy level.

荧光发生在电子从激发态降回较低能级时。

4.The scientist observed the molecules in an excited condition, which indicated they had absorbed energy.

科学家观察到分子处于激发态，这表明它们吸收了能量。

5.In quantum mechanics, particles can exist in an excited condition before returning to their ground state.

在量子力学中，粒子可以处于激发态，然后再返回到基态。

作文

In the realm of science, particularly in physics and chemistry, the term excited condition refers to a state where particles, such as atoms or molecules, possess higher energy than their normal state. This phenomenon occurs when energy is absorbed by these particles, causing them to transition from a lower energy level to a higher one. For instance, when an electron in an atom absorbs energy, it can jump to a higher energy orbital, resulting in what we call an excited condition.激发态 This concept is not only fundamental to understanding atomic behavior but also plays a crucial role in various applications, including lasers and fluorescent lights.Understanding excited condition is essential for students and professionals in scientific fields. When particles are in this state, they can exhibit different properties compared to their ground state. For example, in the case of lasers, the excited condition of atoms allows for the emission of coherent light. This process is known as stimulated emission, where photons trigger other excited atoms to release their energy in the form of light, amplifying the intensity of the beam.激发态Moreover, the study of excited condition has significant implications in the field of spectroscopy. Spectroscopy is the analysis of how matter interacts with electromagnetic radiation. When substances are exposed to light or other forms of energy, electrons can be promoted to an excited condition, leading to the absorption or emission of specific wavelengths of light. By studying these interactions, scientists can determine the composition and structure of materials, making spectroscopy a powerful tool in chemistry and materials science.激发态In addition to its scientific applications, the concept of excited condition can also be metaphorically applied to human emotions and experiences. Just as particles can become excited through the absorption of energy, individuals can find themselves in an excited condition when they experience heightened emotions, such as joy, anticipation, or enthusiasm. For example, a child eagerly waiting for their birthday party may be in an excited condition, displaying behaviors that reflect their heightened state of happiness.激发态This parallel between physical and emotional excited condition highlights the universality of excitement in our lives. Whether it is the excitement of scientific discovery or the joy of personal milestones, being in an excited condition often leads to increased motivation and engagement. In educational settings, fostering an excited condition among students can enhance learning outcomes, as they are more likely to participate actively and retain information when they are emotionally invested in the material.激发态In conclusion, the concept of excited condition encompasses both scientific principles and emotional experiences. Understanding this term in the context of physics and chemistry allows us to appreciate the intricate behaviors of particles, while recognizing its metaphorical significance enriches our understanding of human emotions. Whether in the lab or in everyday life, the excited condition serves as a reminder of the dynamic nature of energy and emotion, driving both scientific advancements and personal growth.激发态

在科学领域，尤其是物理学和化学中，术语excited condition指的是粒子（如原子或分子）具有比正常状态更高的能量的状态。这种现象发生在这些粒子吸收能量时，导致它们从较低能级跃迁到较高能级。例如，当原子中的电子吸收能量时，它可以跃迁到更高的能量轨道，从而形成我们所称的excited condition。激发态这个概念不仅是理解原子行为的基础，而且在激光器和荧光灯等各种应用中发挥着至关重要的作用。理解excited condition对科学领域的学生和专业人士至关重要。当粒子处于这种状态时，它们可能表现出与基态不同的特性。例如，在激光的情况下，原子的excited condition使其能够发射相干光。这一过程被称为受激发射，其中光子触发其他激发原子释放其能量，以光的形式放大光束的强度。激发态此外，研究excited condition在光谱学领域也具有重要意义。光谱学是分析物质如何与电磁辐射相互作用的学科。当物质暴露于光或其他形式的能量时，电子可以被提升到excited condition，导致特定波长的光的吸收或发射。通过研究这些相互作用，科学家可以确定材料的组成和结构，使光谱学成为化学和材料科学中的一种强大工具。激发态除了科学应用之外，excited condition的概念还可以隐喻地应用于人类情感和经历。正如粒子通过吸收能量而变得兴奋一样，个体在经历高度情绪（例如快乐、期待或热情）时，也会发现自己处于excited condition。例如，一个孩子急切地等待生日派对时，可能处于excited condition，表现出反映其高度幸福状态的行为。激发态这种物理和情感excited condition之间的平行关系突显了兴奋在我们生活中的普遍性。无论是科学发现的兴奋，还是个人里程碑的喜悦，处于excited condition通常会导致更高的动机和参与度。在教育环境中，培养学生的excited condition可以增强学习效果，因为当他们对材料情感投入时，更有可能积极参与并保留信息。激发态总之，excited condition的概念涵盖了科学原理和情感体验。在物理和化学的背景下理解这一术语使我们能够欣赏粒子的复杂行为，同时认识到其隐喻意义丰富了我们对人类情感的理解。无论是在实验室还是日常生活中，excited condition都提醒我们能量和情感的动态本质，推动科学进步和个人成长。激发态