subsolar
简明释义
adj. 在太阳正下面的;赤道的;现世的;热带的
英英释义
Located directly beneath the sun; the point on the Earth's surface where the sun is at its zenith. | 位于太阳正下方;地球表面上太阳在其最高点的地方。 |
单词用法
子太阳位置 | |
子太阳角 | |
子太阳轨迹 | |
子太阳时间 |
同义词
反义词
| 超太阳的 | The supersolar energy technologies are becoming more efficient. | 超太阳能技术正在变得更高效。 | |
| 反太阳的 | The antisolar point is directly opposite the sun in the sky. | 反太阳点在天空中与太阳正好相对。 |
例句
1.The subsolar point will cross every latitude between these two extremes exactly twice per year.
太阳直射点每年恰好两次穿越这两个极端之间的所有纬度。
2.The subsolar point will cross every latitude between these two extremes exactly twice per year.
太阳直射点每年恰好两次穿越这两个极端之间的所有纬度。
3.When you are standing at the subsolar point, your shadow will be at its shortest.
当你站在子太阳点时,你的影子会是最短的。
4.At noon, the sun is at its highest point in the sky, making the location directly under the sun subsolar.
在中午,太阳位于天空的最高点,直接在太阳下方的位置被称为子太阳点。
5.During the equinox, the sun is directly subsolar at the equator.
在春分和秋分期间,太阳正好在赤道上方,即子太阳点。
6.The concept of subsolar positions is important for understanding solar energy collection.
理解子太阳位置的概念对于太阳能收集至关重要。
7.In tropical regions, the sun can be directly overhead, creating a subsolar effect.
在热带地区,太阳可以正好在头顶上,产生子太阳效应。
作文
The concept of being subsolar is often used in discussions about solar energy and geography. The term refers to the point on the Earth's surface that is directly beneath the sun at any given time. When we think about solar energy, it is essential to consider how the position of the sun affects the amount of sunlight that reaches different areas of the Earth. The subsolar point moves throughout the day as the Earth rotates on its axis, creating a dynamic relationship between the sun and our planet. This movement can significantly influence climate patterns, weather, and even agricultural practices.Understanding the subsolar point is crucial for solar energy systems. Solar panels are most effective when they are positioned to receive direct sunlight. Therefore, knowing where the subsolar point is at various times of the year can help optimize the placement of solar panels. For instance, during the summer solstice, the subsolar point is at its northernmost latitude, while during the winter solstice, it shifts to its southernmost latitude. This variation means that solar energy potential changes with the seasons, making it vital for engineers and architects to take these factors into account when designing solar-powered buildings.Moreover, the implications of the subsolar point extend beyond just solar energy. In the field of meteorology, understanding where the sun is directly overhead can help predict weather patterns. Regions that experience the subsolar point frequently may have warmer temperatures and more intense sunlight, which can lead to different climatic conditions compared to areas further away from the subsolar path. This knowledge is invaluable for agriculture, as farmers can plan their planting and harvesting schedules based on the expected sunlight exposure.In addition to its application in renewable energy and weather prediction, the subsolar concept also appears in discussions about global warming and climate change. As the Earth's climate continues to change, the behavior of the subsolar point may shift, leading to unforeseen consequences for ecosystems and human activity. For example, regions that are traditionally cooler may experience increased solar radiation if the subsolar point moves closer to them for extended periods. This could impact biodiversity, water resources, and food security.In conclusion, the term subsolar encompasses much more than just a geographical reference; it plays a significant role in the fields of energy, meteorology, agriculture, and environmental science. By understanding the implications of the subsolar point, we can better appreciate how our planet interacts with the sun and how this relationship influences our daily lives. As we continue to explore sustainable energy solutions and adapt to changing climates, the significance of the subsolar concept will only grow, highlighting the intricate connections between celestial mechanics and life on Earth.
“subsolar”这个概念常常在太阳能和地理讨论中被提及。该术语指的是地球表面在任何给定时刻正好位于太阳正下方的点。当我们考虑太阳能时,重要的是要考虑太阳的位置如何影响阳光到达地球不同区域的数量。随着地球绕其轴旋转,subsolar点会在一天中移动,形成太阳与我们星球之间的动态关系。这种运动对气候模式、天气甚至农业实践产生重要影响。理解subsolar点对于太阳能系统至关重要。太阳能电池板在接受直射阳光时效果最佳。因此,了解在一年中的不同时间subsolar点的位置可以帮助优化太阳能电池板的放置。例如,在夏至期间,subsolar点位于其最北纬度,而在冬至期间,它则移至最南纬度。这种变化意味着太阳能潜力随着季节而变化,因此工程师和建筑师在设计太阳能建筑时必须考虑这些因素。此外,subsolar点的影响不仅限于太阳能。在气象学领域,了解太阳正好位于头顶的位置可以帮助预测天气模式。经常经历subsolar点的地区可能会有更高的温度和更强烈的阳光,这可能导致与远离subsolar路径的区域不同的气候条件。这一知识对农业来说至关重要,因为农民可以根据预期的阳光照射来规划他们的种植和收获时间表。除了在可再生能源和天气预测中的应用之外,subsolar概念还出现在全球变暖和气候变化的讨论中。随着地球气候的持续变化,subsolar点的行为可能会发生变化,从而对生态系统和人类活动产生意想不到的后果。例如,传统上较凉爽的地区如果subsolar点长时间靠近它们,可能会经历增加的太阳辐射。这可能会影响生物多样性、水资源和粮食安全。总之,术语subsolar包含了远不止地理参考的内容;它在能源、气象、农业和环境科学等领域发挥着重要作用。通过理解subsolar点的含义,我们可以更好地欣赏我们的星球如何与太阳互动,以及这种关系如何影响我们的日常生活。随着我们继续探索可持续能源解决方案并适应变化的气候,subsolar概念的重要性只会增加,突显出天体力学与地球生命之间错综复杂的联系。
