partial width
简明释义
部分能级宽度
英英释义
Partial width refers to the measurement of a specific section or segment of a width, rather than the total width of an object or space. | 部分宽度是指一个物体或空间的特定部分或段落的宽度测量,而不是整体宽度。 |
例句
1.In the design of the bridge, engineers considered the partial width of each section for stability.
在桥梁设计中,工程师考虑了每个部分的部分宽度以确保稳定性。
2.When measuring the partial width, make sure to account for any irregularities.
在测量部分宽度时,确保考虑任何不规则之处。
3.The partial width of the beam was calculated to ensure it could support the load.
梁的部分宽度被计算出来,以确保它能够承载负荷。
4.The partial width of the table was adjusted to fit into the small dining area.
桌子的部分宽度被调整以适应小餐厅。
5.The partial width of the wall affects the overall aesthetics of the room.
墙的部分宽度影响房间的整体美观。
作文
In the realm of physics and engineering, the concept of partial width is often encountered when discussing the characteristics of various phenomena. Specifically, partial width refers to the measure of how much a particular state contributes to the total width of a resonance peak in a spectrum. This is particularly significant in fields such as particle physics, where understanding the properties of particles and their interactions is essential. For instance, when a particle decays, it can produce multiple channels or pathways. Each of these channels has its own partial width, which indicates the likelihood of that specific decay process occurring. The sum of all these partial widths gives rise to the total decay width of the particle, providing insight into its stability and the strength of its interactions with other particles.Understanding partial width is crucial for physicists as it helps them to dissect complex interactions into more manageable parts. For example, when analyzing a particle's decay, researchers can focus on each decay channel separately. By studying the partial width associated with each channel, they can gain valuable information about the underlying physics governing the decay process. This approach not only simplifies the analysis but also enhances the accuracy of predictions regarding the behavior of particles under various conditions.Moreover, the concept of partial width extends beyond particle physics. In engineering, particularly in the design of resonant circuits, engineers must consider the partial width of different frequency components to ensure optimal performance. Each component in a circuit may have a different partial width, impacting how signals are processed and transmitted. A thorough understanding of these partial widths allows engineers to fine-tune their designs, leading to more efficient and effective electronic devices.Additionally, in the field of optics, partial width plays a role in understanding how light interacts with materials. When light passes through a medium, it can be absorbed or scattered at different rates depending on the wavelength. The partial width of absorption peaks in a material's spectrum provides insights into its electronic structure and the dynamics of electron transitions. This information is vital for developing new materials with desired optical properties, which can be applied in various technologies such as solar cells and lasers.In summary, the term partial width encapsulates a fundamental concept that bridges multiple disciplines, from particle physics to engineering and optics. Its significance lies in its ability to provide a clearer understanding of complex systems by breaking them down into their constituent parts. By analyzing partial widths, researchers and engineers can make more informed decisions, leading to advancements in technology and a deeper comprehension of the natural world. As we continue to explore the intricacies of science and engineering, the importance of concepts like partial width will undoubtedly remain at the forefront of our endeavors, guiding us toward new discoveries and innovations.
在物理和工程领域,partial width(部分宽度)的概念常常出现在讨论各种现象的特征时。具体而言,partial width指的是某一特定状态对谱中共振峰总宽度的贡献程度。这在粒子物理等领域尤为重要,因为理解粒子的性质及其相互作用至关重要。例如,当一个粒子衰变时,它可能会产生多个通道或路径。每个通道都有自己的partial width,表示该特定衰变过程发生的可能性。所有这些partial widths的总和形成了粒子的总衰变宽度,从而提供了关于其稳定性和与其他粒子相互作用强度的洞见。理解partial width对于物理学家来说至关重要,因为它帮助他们将复杂的相互作用分解为更易于管理的部分。例如,在分析粒子的衰变时,研究人员可以专注于每个衰变通道。通过研究与每个通道相关的partial width,他们可以获得有关支配衰变过程的基本物理学的宝贵信息。这种方法不仅简化了分析,还提高了对粒子在各种条件下行为的预测准确性。此外,partial width的概念超越了粒子物理学。在工程学中,特别是在谐振电路的设计中,工程师必须考虑不同频率组件的partial width以确保最佳性能。电路中的每个组件可能具有不同的partial width,影响信号的处理和传输。对这些partial widths的透彻理解使工程师能够微调他们的设计,从而导致更高效和有效的电子设备。此外,在光学领域,partial width在理解光如何与材料相互作用方面也发挥着作用。当光通过介质时,它可能会根据波长以不同的速率被吸收或散射。材料光谱中吸收峰的partial width提供了对其电子结构和电子跃迁动态的洞察。这些信息对于开发具有所需光学特性的材料至关重要,这可以应用于太阳能电池和激光等各种技术。总之,术语partial width概括了一个基本概念,连接了多个学科,从粒子物理到工程和光学。其重要性在于它能够通过将复杂系统分解为其组成部分,从而提供更清晰的理解。通过分析partial widths,研究人员和工程师可以做出更明智的决策,从而推动技术进步和对自然世界的更深理解。随着我们继续探索科学和工程的复杂性,像partial width这样的概念的重要性无疑将始终处于我们努力的前沿,引导我们迈向新的发现和创新。
相关单词
