transmission factor

简明释义

透射系数

英英释义

例句

1.Understanding the transmission factor 传播因子 is crucial for controlling infectious diseases.

理解传播因子 传播因子对于控制传染病至关重要。

2.The study revealed that the transmission factor 传播因子 for the virus was significantly higher in crowded areas.

研究显示，该病毒在拥挤地区的传播因子 传播因子显著更高。

3.Public health officials are using the transmission factor 传播因子 to implement safety measures.

公共卫生官员正在利用传播因子 传播因子来实施安全措施。

4.The transmission factor 传播因子 can vary based on environmental conditions.

根据环境条件，传播因子 传播因子可能会有所不同。

5.Researchers are analyzing the transmission factor 传播因子 to predict the spread of the disease.

研究人员正在分析传播因子 传播因子以预测疾病的传播。

作文

In the realm of science, particularly in fields such as physics and engineering, understanding various concepts is crucial for advancing knowledge and technology. One such concept is the transmission factor, which plays a significant role in the study of wave propagation and signal transmission. The transmission factor refers to the ratio of the transmitted power to the incident power at a boundary, often expressed in decibels (dB). This measurement is essential for evaluating how effectively energy or information passes through different mediums, whether they be optical fibers, radio waves, or sound waves.When we consider communication systems, the transmission factor becomes even more critical. For instance, in telecommunication, the efficiency of data transfer can significantly impact the quality of service provided to users. A high transmission factor indicates that a large portion of the input signal is successfully transmitted without significant loss, which is paramount for maintaining clear and reliable communication. Conversely, a low transmission factor may suggest that the system is experiencing considerable attenuation, leading to degraded performance.Moreover, the transmission factor is not only applicable to telecommunications but also to other fields such as acoustics and optics. In acoustics, for example, the transmission factor helps in assessing how sound travels through various materials. Understanding how sound is transmitted can inform architectural designs, ensuring that spaces are acoustically optimized for their intended use. Similarly, in optics, the transmission factor is crucial when designing lenses and optical devices, as it determines how much light passes through different materials, affecting everything from camera performance to the effectiveness of eyeglasses.In practical applications, engineers often conduct experiments to measure the transmission factor of different materials. These measurements can guide the selection of materials for specific applications, ensuring that the chosen medium will facilitate optimal signal transmission. For instance, in fiber optics, materials with high transmission factors are preferred to minimize signal loss over long distances, thereby enhancing the overall efficiency of the network.In conclusion, the concept of the transmission factor is integral to various scientific and engineering disciplines. It provides valuable insights into how energy and information are transmitted across different mediums, impacting everything from telecommunications to architectural acoustics. By understanding and optimizing the transmission factor, we can improve the performance of systems and technologies that rely on effective transmission, ultimately leading to advancements in communication, sound design, and optical engineering.

在科学领域，特别是在物理和工程等领域，理解各种概念对于推进知识和技术至关重要。其中一个概念是传输因子，它在波传播和信号传输的研究中发挥着重要作用。传输因子是指在边界处传输功率与入射功率的比率，通常以分贝（dB）表示。这个测量对于评估能量或信息通过不同介质的有效性至关重要，无论是光纤、无线电波还是声波。当我们考虑通信系统时，传输因子变得更加关键。例如，在电信中，数据传输的效率可以显著影响提供给用户的服务质量。高传输因子表明输入信号的大部分成功传输而没有显著损失，这对于保持清晰和可靠的通信至关重要。相反，低传输因子可能表明系统经历了相当大的衰减，导致性能下降。此外，传输因子不仅适用于电信，还适用于声学和光学等其他领域。在声学中，例如，传输因子有助于评估声音如何通过各种材料传播。了解声音的传播方式可以为建筑设计提供信息，确保空间在其预期用途上声学优化。类似地，在光学中，传输因子在设计镜头和光学设备时至关重要，因为它决定了多少光通过不同的材料，从而影响从相机性能到眼镜有效性的方方面面。在实际应用中，工程师经常进行实验以测量不同材料的传输因子。这些测量可以指导特定应用材料的选择，确保所选介质将促进最佳信号传输。例如，在光纤中，优先选择具有高传输因子的材料，以最小化长距离传输中的信号损失，从而提高网络的整体效率。总之，传输因子的概念对于各种科学和工程学科至关重要。它为能量和信息如何通过不同介质传输提供了宝贵的见解，影响着从电信到建筑声学的方方面面。通过理解和优化传输因子，我们可以改善依赖有效传输的系统和技术的性能，最终推动通信、声音设计和光学工程的进步。