colatitude

简明释义

英[kəʊˈlætɪˌtjuːd]美[koˈlætəˌtjʊd]

n. [天] 余纬度

英英释义

单词用法

同义词

反义词

例句

1.Aberration and retardation effects are also taken into account when calculating pulse phase, colatitude Angle and position Angle.

在计算辐射的相位、余纬角和偏振位置角过程中考虑了光行差效应和延迟效应。

2.Aberration and retardation effects are also taken into account when calculating pulse phase, colatitude Angle and position Angle.

在计算辐射的相位、余纬角和偏振位置角过程中考虑了光行差效应和延迟效应。

3.The colatitude is essential for mapping the Earth's magnetic field accurately.

准确绘制地球磁场时，余纬是必不可少的。

4.In astronomy, the colatitude of an observer affects the visibility of certain celestial objects.

在天文学中，观察者的余纬影响某些天体的可见性。

5.The formula for calculating the distance between two points on the Earth's surface involves their latitudes and colatitude.

计算地球表面两个点之间距离的公式涉及它们的纬度和余纬。

6.To find the correct angle for solar panels, you need to consider the colatitude of your location.

为了找到太阳能电池板的正确角度，你需要考虑你所在位置的余纬。

7.When studying climate patterns, scientists often analyze data based on colatitude.

在研究气候模式时，科学家们常常根据余纬分析数据。

作文

Understanding the concept of colatitude is essential for anyone studying geography or earth sciences. Colatitude, defined as the complement of latitude, is calculated by subtracting the latitude of a point from 90 degrees. This means that if you are at a latitude of 30 degrees, your colatitude would be 60 degrees (90 - 30). This concept is particularly useful when dealing with spherical coordinates and understanding the geometry of the Earth. The importance of colatitude extends beyond mere calculations; it plays a significant role in various scientific fields, including astronomy, climatology, and even navigation. For example, astronomers often utilize colatitude when determining the position of celestial bodies in the sky relative to an observer's location on Earth. By knowing both the latitude and colatitude, they can accurately predict the visibility of stars and planets at different times of the year.In climatology, colatitude is crucial for understanding climate zones. The Earth's climate varies significantly based on latitude, with equatorial regions experiencing warm temperatures year-round, while polar regions remain cold. By considering colatitude, scientists can better analyze temperature gradients and the distribution of ecosystems around the globe. For instance, the tropics are located between 0 and 30 degrees latitude, while the temperate zones lie between 30 and 60 degrees. Knowing the colatitude helps researchers understand how these zones interact and influence global weather patterns.Moreover, in navigation, colatitude assists sailors and pilots in plotting their courses. When navigating through the vast oceans or skies, knowing one’s colatitude can help determine the best routes to take, especially when considering the curvature of the Earth. Navigators often rely on a combination of latitude and colatitude to ensure they reach their destinations efficiently.To further illustrate the significance of colatitude, consider its application in solar energy studies. The angle at which sunlight strikes the Earth varies with both latitude and colatitude. Solar panels positioned at optimal angles based on colatitude can maximize energy absorption throughout the year. This is particularly important for regions that experience significant seasonal variations in sunlight.In conclusion, the term colatitude may seem like a simple mathematical concept at first glance, but its implications are profound and far-reaching. From enhancing our understanding of the universe to improving navigation and maximizing solar energy use, colatitude is a fundamental aspect of many scientific disciplines. As we continue to explore our planet and the cosmos, the relevance of colatitude will undoubtedly remain significant, guiding researchers and practitioners in their respective fields. Therefore, grasping the concept of colatitude is not just an academic exercise; it is a vital skill that enriches our comprehension of the world around us.

理解colatitude这个概念对于任何研究地理或地球科学的人来说都是至关重要的。Colatitude被定义为纬度的补数，它是通过从90度中减去某一点的纬度来计算的。这意味着，如果你的纬度是30度，那么你的colatitude将是60度（90 - 30）。这个概念在处理球面坐标和理解地球几何时特别有用。Colatitude的重要性超越了简单的计算；它在多个科学领域中发挥着重要作用，包括天文学、气候学，甚至导航。例如，天文学家在确定天体在天空中的位置时，通常会利用colatitude。通过知道纬度和colatitude，他们可以准确预测在不同季节星星和行星的可见性。在气候学中，colatitude对理解气候带至关重要。地球的气候因纬度而异，赤道地区全年温暖，而极地地区则保持寒冷。通过考虑colatitude，科学家可以更好地分析温度梯度和全球生态系统的分布。例如，热带地区位于0到30度纬度之间，而温带地区则位于30到60度之间。了解colatitude有助于研究人员理解这些区域如何相互作用并影响全球天气模式。此外，在导航中，colatitude帮助水手和飞行员绘制航线。在广阔的海洋或天空中导航时，了解自己的colatitude可以帮助确定最佳航线，尤其是在考虑到地球的曲率时。导航员通常依靠纬度和colatitude的组合，以确保他们高效地到达目的地。为了进一步说明colatitude的重要性，考虑它在太阳能研究中的应用。阳光照射地球的角度因纬度和colatitude而异。根据colatitude最佳角度放置的太阳能板可以最大化全年能量吸收。这对于经历显著季节变化的地区尤为重要。总之，colatitude这个术语乍一看似乎只是一个简单的数学概念，但其影响深远而广泛。从增强我们对宇宙的理解到改善导航和最大化太阳能利用，colatitude是许多科学学科的基本方面。随着我们继续探索我们的星球和宇宙，colatitude的相关性无疑将保持重要性，引导研究人员和从业者在各自的领域中。因此，掌握colatitude的概念不仅仅是学术练习；它是一项重要技能，丰富了我们对周围世界的理解。