angle of obliquity
简明释义
斜角;
英英释义
例句
1.Astronomers use the angle of obliquity 倾斜角 to calculate the orbits of planets accurately.
天文学家利用倾斜角 angle of obliquity来准确计算行星的轨道。
2.The angle of obliquity 倾斜角 of Mars is different from that of Earth, affecting its climate and seasons.
火星的倾斜角 angle of obliquity与地球不同,这影响了其气候和季节。
3.Scientists study the angle of obliquity 倾斜角 to understand historical climate changes.
科学家研究倾斜角 angle of obliquity以理解历史气候变化。
4.A change in the angle of obliquity 倾斜角 can lead to significant shifts in seasonal weather patterns.
在倾斜角 angle of obliquity的变化可能导致季节性天气模式的显著变化。
5.The Earth's climate is heavily influenced by the angle of obliquity 倾斜角, which affects the distribution of sunlight across the planet.
地球的气候受到倾斜角 angle of obliquity的重大影响,这影响了阳光在地球上的分布。
作文
The concept of the angle of obliquity is essential in understanding the dynamics of planetary motion and climate change. In astronomy, the angle of obliquity refers to the angle between a planet's rotational axis and its orbital plane. For Earth, this angle is approximately 23.5 degrees. This tilt is significant because it influences the distribution of sunlight on the planet's surface, which in turn affects seasonal changes and climate patterns. When we consider the angle of obliquity, we must also acknowledge its impact on various ecological systems. The tilt of the Earth's axis leads to variations in temperature and daylight throughout the year. For example, during summer in the Northern Hemisphere, the North Pole is tilted toward the Sun, resulting in longer days and warmer temperatures. Conversely, during winter, the North Pole is tilted away from the Sun, leading to shorter days and colder weather. These seasonal changes are crucial for the survival of many species as they rely on specific conditions for breeding, feeding, and migration.Moreover, the angle of obliquity is not a constant value; it can vary over long periods due to gravitational interactions with other celestial bodies. This variation can lead to significant climate shifts over geological timescales. Scientists study these changes to understand past climate conditions and predict future trends. For instance, a decrease in the angle of obliquity may lead to cooler global temperatures, while an increase could result in warmer climates. Understanding the angle of obliquity is also vital for space exploration and the potential colonization of other planets. Different planets have varying angles of obliquity, which affects their climates and weather patterns. For example, Mars has an axial tilt similar to Earth's, which suggests that it experiences seasons as well. However, the angle of obliquity on Mars is about 25 degrees, leading to more extreme seasonal changes compared to Earth. Such knowledge is critical for planning missions and establishing sustainable habitats on other planets.In conclusion, the angle of obliquity is more than just a scientific term; it plays a pivotal role in our understanding of Earth's climate, ecological systems, and the potential for life on other planets. As we continue to explore the universe, the significance of this angle will become increasingly apparent, guiding our research and exploration efforts. By studying the angle of obliquity, we gain insights into the delicate balance of forces that shape our world and beyond. In summary, the angle of obliquity (倾斜角) is a crucial parameter in both astronomy and environmental science that helps us comprehend climate dynamics and planetary behavior. As we delve deeper into the mysteries of our solar system, the implications of this angle will undoubtedly influence our understanding of the cosmos and our place within it.
倾斜角的概念在理解行星运动和气候变化的动态中至关重要。在天文学中,倾斜角指的是一个行星的自转轴与其轨道平面之间的角度。对于地球来说,这个角度大约为23.5度。这个倾斜角很重要,因为它影响着阳光在地球表面的分布,进而影响季节变化和气候模式。当我们考虑
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