transmission factor

简明释义

透过系数

英英释义

例句

1.The study revealed that the transmission factor 传播因子 of the virus increased during the winter months.

研究显示，病毒的传播因子在冬季月份增加。

2.Understanding the transmission factor 传播因子 is crucial for controlling disease outbreaks.

理解传播因子对于控制疾病暴发至关重要。

3.A higher transmission factor 传播因子 can lead to more rapid transmission of diseases.

较高的传播因子可能导致疾病传播更快。

4.Researchers are analyzing the transmission factor 传播因子 to predict the spread of infections.

研究人员正在分析传播因子以预测感染的传播。

5.The transmission factor 传播因子 varies depending on the population density in an area.

在一个地区，传播因子会根据人口密度的不同而变化。

作文

In the study of physics and engineering, understanding the concept of transmission factor is crucial for analyzing how energy or information is transferred through various mediums. The transmission factor refers to the ratio of the output signal to the input signal in a system, indicating how effectively the system transmits energy or data from one point to another. This concept plays a significant role in fields such as telecommunications, acoustics, and optics, where the efficiency of signal transmission can greatly affect performance. For example, in telecommunications, the transmission factor is vital for determining the quality of a signal being sent over a network. A high transmission factor means that most of the signal reaches its destination without significant loss, while a low transmission factor indicates that much of the signal has been absorbed or scattered, leading to poor communication quality. Engineers often strive to optimize the transmission factor by using advanced materials and technologies that minimize signal degradation.Similarly, in the field of acoustics, the transmission factor helps in understanding how sound waves propagate through different environments. For instance, when designing concert halls, architects must consider the transmission factor of various materials used in the construction to ensure that sound is transmitted clearly and evenly throughout the space. By selecting materials with favorable transmission factors, they can enhance the auditory experience for the audience.Moreover, in optics, the transmission factor is essential for evaluating how much light passes through lenses and filters. Optical engineers calculate the transmission factor to design systems that require precise control over light, such as cameras and microscopes. A high transmission factor in optical components allows for brighter images and better visibility, which is particularly important in scientific research and photography.The importance of the transmission factor extends beyond technical applications; it also has implications for environmental science. For instance, when studying the transmission of pollutants through air or water, researchers assess the transmission factor to determine how substances move and disperse in different ecosystems. Understanding these dynamics is critical for developing strategies to mitigate pollution and protect natural resources.In conclusion, the transmission factor is a fundamental concept that appears across various disciplines, highlighting its significance in both theoretical and practical applications. Whether in telecommunications, acoustics, optics, or environmental science, the ability to measure and optimize the transmission factor can lead to improved performance, enhanced experiences, and a better understanding of complex systems. As technology continues to advance, the relevance of the transmission factor will only grow, making it an essential topic for students and professionals alike to grasp fully.

在物理和工程学的研究中，理解“传输因子”的概念对于分析能量或信息如何通过各种介质传递至关重要。“传输因子”是指系统中输出信号与输入信号的比率，表明系统从一个点到另一个点有效传输能量或数据的程度。这个概念在电信、声学和光学等领域发挥着重要作用，因为信号传输的效率可以极大地影响性能。例如，在电信中，“传输因子”对确定网络中发送信号的质量至关重要。高“传输因子”意味着大部分信号在没有显著损失的情况下到达目的地，而低“传输因子”则表明许多信号已被吸收或散射，导致通信质量差。工程师们通常努力优化“传输因子”，使用先进的材料和技术来最小化信号衰减。同样，在声学领域，“传输因子”有助于理解声波如何在不同环境中传播。例如，在设计音乐厅时，建筑师必须考虑用于建造的各种材料的“传输因子”，以确保声音在整个空间中清晰均匀地传递。通过选择具有良好“传输因子”的材料，他们可以增强观众的听觉体验。此外，在光学中，“传输因子”对于评估多少光透过镜头和滤光片至关重要。光学工程师计算“传输因子”以设计需要精确控制光线的系统，如相机和显微镜。光学元件中的高“传输因子”允许更明亮的图像和更好的可见性，这在科学研究和摄影中尤其重要。“传输因子”的重要性超越了技术应用；它在环境科学中也具有深远的影响。例如，在研究污染物通过空气或水的传输时，研究人员评估“传输因子”以确定物质在不同生态系统中的移动和扩散方式。理解这些动态对于制定减轻污染和保护自然资源的策略至关重要。总之，“传输因子”是一个基本概念，出现在各个学科中，突显其在理论和实际应用中的重要性。无论是在电信、声学、光学还是环境科学中，测量和优化“传输因子”的能力都可以提高性能、增强体验，并更好地理解复杂系统。随着技术的不断进步，“传输因子”的相关性只会增加，因此这是学生和专业人士都应充分掌握的一个重要主题。