transmission coefficien
简明释义
传输系数透射系数
英英释义
例句
1.Engineers must calculate the transmission coefficient to optimize solar panel efficiency.
工程师必须计算传输系数以优化太阳能电池板的效率。
2.The transmission coefficient of a window affects heating costs in buildings.
窗户的传输系数影响建筑物的取暖成本。
3.A higher transmission coefficient indicates better performance in soundproofing materials.
更高的传输系数表示隔音材料性能更好。
4.In optical fibers, the transmission coefficient is critical for determining signal loss.
在光纤中,传输系数对确定信号损失至关重要。
5.The transmission coefficient measures how much light passes through a material.
该传输系数衡量光通过材料的多少。
作文
The concept of transmission coefficient is crucial in various fields, including physics, engineering, and environmental science. It quantifies how much energy, light, or sound passes through a given medium compared to how much is incident on it. Understanding the transmission coefficient can help us design better materials and systems that either maximize or minimize the transmission of waves, depending on our objectives.In optics, for instance, the transmission coefficient determines how much light can pass through a lens or a window. A high transmission coefficient indicates that most of the light is transmitted, which is desirable for applications like eyeglasses or camera lenses. On the other hand, windows designed for thermal insulation might have a lower transmission coefficient, allowing less heat to escape from a building. This is particularly important in energy conservation efforts, where reducing energy loss can lead to significant savings.In acoustics, the transmission coefficient plays a similar role. It helps in understanding how sound waves travel through different materials. For example, soundproofing materials are designed to have low transmission coefficients to prevent sound from passing through walls, floors, or ceilings. By studying the transmission coefficient, engineers can create spaces that minimize noise pollution, enhancing the comfort of living and working environments.The transmission coefficient is also vital in the field of telecommunications. In fiber optics, the transmission coefficient indicates how much of the light signal remains strong as it travels through the fiber. A higher transmission coefficient means less signal loss, leading to clearer and more reliable communication. This is essential for maintaining the quality of internet services, especially as demand for high-speed data transmission continues to grow.Moreover, the transmission coefficient has implications in environmental science. For instance, when studying pollutants in water bodies, scientists measure how much of a contaminant passes through different filters. The transmission coefficient can inform decisions about which filtration systems are most effective at removing harmful substances from drinking water. Understanding this coefficient allows for better public health policies and environmental protection measures.In summary, the transmission coefficient is a fundamental parameter that affects many aspects of our daily lives, from the clarity of our vision to the quality of our communication and the safety of our drinking water. By grasping the principles behind the transmission coefficient, we can innovate and improve technologies that enhance our quality of life. As we continue to advance in science and technology, the importance of understanding such coefficients will only grow, making it imperative for students and professionals alike to master these concepts. By doing so, we equip ourselves with the knowledge needed to tackle future challenges and contribute positively to society.
“传输系数”这一概念在物理、工程和环境科学等多个领域至关重要。它量化了通过特定介质的能量、光或声音与入射到其上的能量的比例。理解“传输系数”可以帮助我们设计出更好的材料和系统,最大化或最小化波的传输,这取决于我们的目标。例如,在光学中,“传输系数”决定了多少光能够通过透镜或窗户。高“传输系数”意味着大部分光被传递,这对于眼镜或相机镜头等应用是可取的。另一方面,设计用于热绝缘的窗户可能具有较低的“传输系数”,从而允许更少的热量从建筑物中逸出。这在节能努力中尤为重要,因为减少能量损失可以带来显著的节省。在声学中,“传输系数”起着类似的作用。它有助于了解声音波如何穿过不同的材料。例如,隔音材料的设计旨在具有低“传输系数”,以防止声音通过墙壁、地板或天花板传播。通过研究“传输系数”,工程师可以创建减少噪音污染的空间,提高居住和工作环境的舒适度。“传输系数”在电信领域也至关重要。在光纤通信中,“传输系数”指示光信号在光纤中传播时保持多强。较高的“传输系数”意味着信号损失较少,从而导致更清晰、更可靠的通信。这对于维持互联网服务的质量至关重要,尤其是在对高速数据传输的需求不断增长的情况下。此外,“传输系数”在环境科学中的影响也不可忽视。例如,在研究水体污染物时,科学家测量不同过滤器通过多少污染物。“传输系数”可以为决定哪些过滤系统在去除饮用水中有害物质方面最有效提供信息。了解这一系数有助于制定更好的公共卫生政策和环境保护措施。总之,“传输系数”是影响我们日常生活诸多方面的基本参数,从我们视力的清晰度到通信的质量,再到饮用水的安全性。通过掌握“传输系数”背后的原理,我们可以创新和改善增强我们生活质量的技术。随着科学和技术的不断进步,理解此类系数的重要性只会增加,因此,学生和专业人士都必须掌握这些概念。通过这样做,我们为解决未来的挑战做好准备,并积极为社会做出贡献。
