transmission curve

简明释义

透射曲线

英英释义

例句

1.The transmission curve indicates the efficiency of the solar panel under various lighting conditions.

该传输曲线表明太阳能电池板在不同光照条件下的效率。

2.By analyzing the transmission curve, researchers can determine the best frequencies for sound transmission.

通过分析传输曲线，研究人员可以确定声音传输的最佳频率。

3.The scientist plotted the transmission curve to analyze how different wavelengths affect light transmission through the material.

科学家绘制了传输曲线以分析不同波长如何影响光在材料中的传输。

4.In telecommunications, the transmission curve helps engineers assess signal degradation over distance.

在电信领域，传输曲线帮助工程师评估信号在距离上的衰减。

5.Understanding the transmission curve is crucial for optimizing the performance of optical filters.

理解传输曲线对优化光学滤波器的性能至关重要。

作文

The concept of a transmission curve is fundamental in various fields, particularly in optics and telecommunications. A transmission curve represents the relationship between the input and output of a system, illustrating how different wavelengths of light or signals are transmitted through a medium. Understanding this curve is essential for engineers and scientists as it helps them predict how materials will behave under different conditions.In optics, the transmission curve is often used to describe how much light passes through a filter or lens at different wavelengths. For instance, when designing sunglasses, manufacturers analyze the transmission curve to ensure that harmful UV rays are blocked while allowing visible light to pass through. This ensures that wearers can see clearly without compromising their eye health. The transmission curve can vary significantly depending on the material used; for example, glass and plastic lenses have different curves due to their unique properties.Moreover, in telecommunications, the transmission curve plays a critical role in signal processing. Engineers utilize this curve to optimize the performance of communication systems by adjusting parameters such as frequency and modulation. A well-optimized transmission curve ensures that signals can be transmitted over long distances with minimal loss of quality. It also helps in identifying the best frequencies for transmitting data, which is crucial for maintaining high-speed internet connections and reliable phone services.The significance of the transmission curve extends beyond technical applications; it also has implications for environmental science. For example, researchers study the transmission curve of various materials to understand how pollutants interact with sunlight. This knowledge can help in assessing the impact of human activities on climate change. By analyzing how different substances absorb or reflect light, scientists can make informed decisions about environmental policies and conservation efforts.In conclusion, the transmission curve is a vital concept that bridges multiple disciplines, including optics, telecommunications, and environmental science. Its ability to illustrate the transmission characteristics of different materials makes it an indispensable tool for professionals in these fields. As technology continues to advance, the importance of understanding and optimizing the transmission curve will only grow, highlighting the need for continued research and innovation. Whether in designing better optical devices or improving communication networks, the transmission curve remains a key element in the pursuit of efficiency and effectiveness in various applications.

“传输曲线”这一概念在多个领域中都是基础，特别是在光学和电信领域。传输曲线表示输入与输出之间的关系，展示了不同波长的光或信号是如何通过介质传输的。理解这一曲线对工程师和科学家至关重要，因为它帮助他们预测材料在不同条件下的表现。在光学中，传输曲线通常用来描述光线通过过滤器或透镜时在不同波长下的传输量。例如，在设计太阳镜时，制造商会分析传输曲线以确保有害的紫外线被阻挡，同时允许可见光通过。这确保了佩戴者能够清晰地看到，而不妨碍眼睛健康。传输曲线因所用材料的不同而有显著差异；例如，玻璃和塑料镜片由于其独特的性质而具有不同的曲线。此外，在电信领域，传输曲线在信号处理中的作用至关重要。工程师利用这一曲线来优化通信系统的性能，通过调整频率和调制等参数。经过良好优化的传输曲线确保信号可以在长距离内传输，且质量损失最小。它还帮助识别传输数据的最佳频率，这对于维持高速互联网连接和可靠的电话服务至关重要。传输曲线的重要性不仅限于技术应用；它在环境科学中也具有重要意义。例如，研究人员研究各种材料的传输曲线以了解污染物如何与阳光相互作用。这一知识可以帮助评估人类活动对气候变化的影响。通过分析不同物质吸收或反射光的方式，科学家可以就环境政策和保护措施做出明智的决策。总之，传输曲线是一个桥接多个学科的重要概念，包括光学、电信和环境科学。它能够展示不同材料的传输特性，使其成为这些领域专业人士不可或缺的工具。随着技术的不断进步，理解和优化传输曲线的重要性只会增加，突显出持续研究和创新的必要性。无论是在设计更好的光学设备还是改善通信网络方面，传输曲线始终是追求各类应用效率和有效性的关键元素。