zenith angle effect

简明释义

天顶角效应

英英释义

例句

1.The solar panel's efficiency is significantly influenced by the zenith angle effect (天顶角效应), which determines how much sunlight hits the surface.

太阳能电池板的效率受到天顶角效应（天顶角效应）的显著影响，这决定了多少阳光照射到表面。

2.Understanding the zenith angle effect (天顶角效应) helps architects design buildings that maximize natural light.

理解天顶角效应（天顶角效应）有助于建筑师设计最大化自然光的建筑。

3.The zenith angle effect (天顶角效应) can lead to variations in temperature and weather patterns throughout the year.

由于天顶角效应（天顶角效应），全年温度和天气模式可能会有所变化。

4.Farmers need to consider the zenith angle effect (天顶角效应) when planning the layout of their fields for optimal sunlight exposure.

农民在规划田地布局以获得最佳阳光照射时，需要考虑天顶角效应（天顶角效应）。

5.The zenith angle effect (天顶角效应) plays a crucial role in climate studies, particularly in modeling solar radiation.

在气候研究中，天顶角效应（天顶角效应）在模拟太阳辐射方面起着至关重要的作用。

作文

The concept of the zenith angle effect is crucial in various fields, particularly in astronomy, meteorology, and solar energy applications. The zenith angle refers to the angle between the zenith point directly above an observer and the position of a celestial body, such as the sun. Understanding this angle is essential for accurately predicting the intensity of sunlight received at different times of the day and throughout the year. As the sun moves across the sky, its zenith angle changes, which in turn affects the amount of solar radiation that reaches the Earth's surface.In solar energy systems, the zenith angle effect plays a significant role in determining the efficiency of solar panels. When the sun is at a lower zenith angle, such as during sunrise or sunset, the sunlight has to pass through a greater thickness of the Earth's atmosphere. This increased atmospheric path length results in scattering and absorption of sunlight, reducing the intensity of solar radiation that reaches the solar panels. Conversely, when the sun is at a higher zenith angle, typically around noon, the sunlight travels a shorter distance through the atmosphere, resulting in more direct and intense sunlight. Therefore, solar energy systems are often designed to maximize exposure to sunlight during these peak hours.Moreover, the zenith angle effect is also vital for understanding climate patterns. Meteorologists analyze the zenith angle to predict weather conditions and assess the impact of solar radiation on temperature variations. For instance, during summer months, the sun's zenith angle is lower at noon, leading to higher temperatures. In contrast, during winter months, the higher zenith angle results in cooler temperatures as the sunlight is less direct. By studying these patterns, scientists can make informed predictions about seasonal changes and their effects on ecosystems.Another important application of the zenith angle effect is in the field of photography and videography. Photographers often consider the zenith angle when capturing images, as it influences the quality and direction of natural light. A low zenith angle can create long shadows and a warm glow during the golden hour, while a high zenith angle can result in harsh lighting conditions. Understanding how the zenith angle affects natural light allows photographers to choose the best times for shooting and to adjust their techniques accordingly.In conclusion, the zenith angle effect is a multifaceted concept that impacts various disciplines, from solar energy optimization to climate science and photography. By comprehensively understanding this effect, we can harness solar energy more efficiently, predict weather patterns with greater accuracy, and enhance our artistic endeavors. As technology continues to advance, further research into the zenith angle effect will undoubtedly lead to new innovations and applications that benefit society as a whole.

“天顶角效应”的概念在多个领域中至关重要，特别是在天文学、气象学和太阳能应用中。天顶角是指观察者正上方的天顶点与天体（如太阳）位置之间的角度。理解这个角度对于准确预测不同时间和全年接收到的阳光强度至关重要。随着太阳在天空中的移动，其天顶角会发生变化，这反过来又影响到到达地球表面的太阳辐射量。在太阳能系统中，“天顶角效应”在确定太阳能电池板效率方面发挥着重要作用。当太阳处于较低的天顶角时，例如日出或日落时，阳光必须穿过更厚的地球大气层。这种增加的大气路径长度导致阳光的散射和吸收，从而减少到达太阳能电池板的太阳辐射强度。相反，当太阳处于较高的天顶角时，通常是在中午，阳光通过大气的距离较短，导致更直接和强烈的阳光。因此，太阳能系统通常设计为最大限度地利用这些高峰时段的阳光。此外，“天顶角效应”对于理解气候模式也至关重要。气象学家分析天顶角以预测天气条件，并评估太阳辐射对温度变化的影响。例如，在夏季，太阳的天顶角在中午时较低，导致温度升高。相反，在冬季，较高的天顶角会导致温度降低，因为阳光不那么直接。通过研究这些模式，科学家可以做出关于季节变化及其对生态系统影响的明智预测。“天顶角效应”的另一个重要应用是在摄影和摄像领域。摄影师在拍摄图像时常常考虑天顶角，因为它影响自然光的质量和方向。低天顶角可以在黄金时段创造长阴影和温暖的光泽，而高天顶角可能导致严酷的光照条件。理解天顶角如何影响自然光使摄影师能够选择最佳拍摄时间，并相应地调整他们的技术。总之，“天顶角效应”是一个多方面的概念，影响着从太阳能优化到气候科学和摄影等多个学科。通过全面理解这一效应，我们可以更有效地利用太阳能，更准确地预测天气模式，并提升我们的艺术创作。随着技术的不断进步，对“天顶角效应”的进一步研究无疑将带来新的创新和应用，造福整个社会。