lightly conducting

简明释义

微导通

英英释义

例句

1.In the workshop, the facilitator was lightly conducting activities to promote creativity.

在研讨会上，主持人轻松地引导活动以促进创造力。

2.The coach was lightly conducting the practice session, focusing on fun rather than intensity.

教练在轻松地进行训练，专注于乐趣而非强度。

3.The teacher was lightly conducting the discussion to encourage student participation.

老师在轻松引导讨论，以鼓励学生参与。

4.During the meeting, she was lightly conducting the agenda to keep things on track.

在会议期间，她轻松地引导议程，以保持事情的进展。

5.He was lightly conducting the orchestra, ensuring that the musicians felt relaxed.

他轻松地指挥着乐团，确保音乐家们感到放松。

作文

In the realm of physics and engineering, the term lightly conducting refers to materials that exhibit a minimal ability to conduct electricity. These materials are not insulators, which do not allow any electric current to pass through, nor are they full conductors like metals that allow electricity to flow freely. Instead, lightly conducting materials fall somewhere in between. They can carry some electrical charge but do so with significant resistance. This property makes them particularly interesting for various applications in technology and science.One classic example of a lightly conducting material is graphite. While graphite is known for its ability to conduct electricity, it does so less efficiently than metals such as copper or aluminum. This characteristic allows graphite to be used in applications where a controlled flow of electricity is necessary, such as in certain types of batteries or electronic components. In these contexts, the lightly conducting nature of graphite helps to prevent short circuits while still providing enough conductivity for the device to function properly.Another relevant example is the use of semiconductors in modern electronics. Semiconductors, such as silicon, are designed to be lightly conducting under specific conditions. By doping silicon with impurities, engineers can manipulate its conductivity to create p-type and n-type materials, which are essential in the functioning of diodes and transistors. The controlled conductivity of these semiconductors allows for the development of complex circuits that power everything from smartphones to computers.The concept of lightly conducting materials also extends to the field of energy storage. For instance, certain types of electrolytes used in batteries are designed to be lightly conducting to ensure that ions can move between electrodes without allowing electrons to flow too freely. This careful balance is crucial in maintaining the efficiency and longevity of the battery. If the electrolyte were a better conductor, it could lead to unwanted reactions that degrade the battery's performance over time.In addition to their practical applications, lightly conducting materials are also of great interest in research. Scientists are continuously exploring new materials that possess this unique property, hoping to discover innovative solutions for energy efficiency and electronic device miniaturization. For example, organic materials that are lightly conducting have gained attention for their potential use in flexible electronics and solar cells. These materials offer a lightweight alternative to traditional conductors and could lead to advancements in wearable technology and renewable energy sources.In summary, the term lightly conducting encompasses a diverse range of materials that possess a moderate ability to conduct electricity. Their unique properties make them invaluable in various fields, including electronics, energy storage, and materials science. As technology continues to evolve, the demand for lightly conducting materials will likely grow, driving further research and innovation in this exciting area. Understanding the nuances of lightly conducting materials not only enriches our knowledge of physics and engineering but also opens doors to new possibilities in the technological landscape.

在物理和工程领域，术语lightly conducting指的是具有有限电导能力的材料。这些材料不是绝缘体，因为绝缘体不允许电流通过，也不是像金属那样可以自由传导电流的完全导体。相反，lightly conducting材料介于两者之间。它们可以携带一些电荷，但这样做会有显著的电阻。这种特性使得它们在技术和科学的各种应用中尤为有趣。一个经典的lightly conducting材料的例子是石墨。虽然石墨以其导电能力而闻名，但其导电效率低于铜或铝等金属。这一特性使得石墨可以用于需要控制电流流动的应用中，例如某些类型的电池或电子元件。在这些情况下，石墨的lightly conducting特性有助于防止短路，同时仍能提供足够的导电性使设备正常工作。另一个相关的例子是在现代电子产品中使用半导体。半导体，如硅，被设计为在特定条件下具有lightly conducting的特性。通过掺杂杂质，工程师可以操控其导电性，以创建p型和n型材料，这对于二极管和晶体管的功能至关重要。这些半导体的受控导电性使得开发复杂电路成为可能，这些电路为从智能手机到计算机的一切提供动力。Lightly conducting材料的概念也扩展到能源存储领域。例如，某些类型的电池中使用的电解质被设计为lightly conducting，以确保离子可以在电极之间移动，而不允许电子流动过于自由。这种微妙的平衡对于保持电池的效率和寿命至关重要。如果电解质是一种更好的导体，可能会导致不必要的反应，从而降低电池的性能。除了实际应用之外，lightly conducting材料在研究中也引起了极大的兴趣。科学家们不断探索具有这一独特属性的新材料，希望发现创新的解决方案，以提高能效和电子设备的小型化。例如，具有lightly conducting特性的有机材料因其在柔性电子产品和太阳能电池中的潜在应用而受到关注。这些材料提供了一种轻便的替代传统导体的选择，可能会推动可穿戴技术和可再生能源的进步。总之，术语lightly conducting涵盖了一系列具有适度电导能力的材料。它们的独特性质使得它们在电子学、能源存储和材料科学等各个领域都具有不可或缺的价值。随着技术的不断发展，对lightly conducting材料的需求可能会不断增长，推动这一激动人心领域的进一步研究和创新。理解lightly conducting材料的细微差别不仅丰富了我们对物理和工程的知识，还为技术领域的新可能性打开了大门。