outer orbit
简明释义
外层轨道
英英释义
The path of an object in space that is further away from the center of a gravitational body, such as a planet or star. | 在空间中,远离引力中心(如行星或恒星)的物体的轨道路径。 |
例句
1.The satellite was launched into an outer orbit to monitor climate changes.
卫星被发射到外轨道以监测气候变化。
2.The mission aims to deploy multiple satellites in the outer orbit for better coverage.
该任务旨在将多个卫星部署在外轨道以获得更好的覆盖。
3.Astronomers discovered a new planet in the outer orbit of the solar system.
天文学家在太阳系的外轨道发现了一颗新行星。
4.In the outer orbit, the gravitational effects are significantly weaker.
在外轨道中,重力效应显著减弱。
5.The spacecraft will travel to the outer orbit of Mars for research.
宇宙飞船将前往火星的外轨道进行研究。
作文
In the vast expanse of our universe, celestial bodies orbit around one another, creating a complex dance that has fascinated astronomers for centuries. Among these orbits, the term outer orbit (外轨道) refers to the regions that are farther away from the central star or planet. Understanding the dynamics of the outer orbit (外轨道) is crucial for comprehending the behavior of various celestial objects, including planets, moons, and asteroids.The outer orbit (外轨道) is not just a physical location but also a realm filled with mysteries and opportunities for exploration. For example, in our solar system, the gas giants like Jupiter and Saturn reside in the outer orbit (外轨道), where their massive sizes and gravitational pulls influence the trajectories of smaller bodies nearby. This region is also home to many fascinating moons, such as Europa and Titan, which have sparked interest due to their potential for harboring life.One of the most intriguing aspects of the outer orbit (外轨道) is the presence of the Kuiper Belt and the Oort Cloud. The Kuiper Belt, located beyond Neptune, is a region filled with icy bodies and dwarf planets like Pluto. Studying the outer orbit (外轨道) of the Kuiper Belt can provide insights into the early solar system's formation and evolution. Similarly, the Oort Cloud, which is believed to be a vast shell of icy objects surrounding our solar system, is thought to be the source of long-period comets that occasionally visit the inner solar system.The exploration of the outer orbit (外轨道) has been a significant focus for space missions. NASA's New Horizons spacecraft, which flew by Pluto in 2015, provided unprecedented data about this distant world and its surroundings. Such missions help scientists understand the composition and dynamics of the outer orbit (外轨道), paving the way for future explorations.Moreover, the outer orbit (外轨道) can also serve as a vantage point for observing the universe. Telescopes placed in this region can avoid the atmospheric distortions that affect ground-based observations. For instance, the Hubble Space Telescope, while not in the true outer orbit (外轨道), operates in low Earth orbit and has provided stunning images of galaxies and nebulae, allowing us to glimpse the cosmos beyond our immediate neighborhood.In summary, the outer orbit (外轨道) represents a frontier of astronomical discovery. It encompasses a diverse array of celestial phenomena and holds the keys to understanding the formation of our solar system and beyond. As technology advances, we will continue to unlock the secrets of the outer orbit (外轨道), expanding our knowledge of the universe and our place within it. The exploration of this region not only satisfies our curiosity but also inspires future generations to look up at the stars and wonder about what lies beyond.
在我们宇宙的广阔空间中,天体围绕彼此运行,形成了一种复杂的舞蹈,这让天文学家们为之着迷了几个世纪。在这些轨道中,术语outer orbit(外轨道)指的是离中央恒星或行星更远的区域。理解outer orbit(外轨道)的动态对于理解各种天体的行为至关重要,包括行星、卫星和小行星。outer orbit(外轨道)不仅是一个物理位置,也是一个充满神秘和探索机会的领域。例如,在我们的太阳系中,像木星和土星这样的气体巨星位于outer orbit(外轨道),它们巨大的体积和引力影响着附近小天体的轨迹。这个区域也是许多迷人卫星的家园,例如欧罗巴和泰坦,它们因有潜在的生命存在而引发了兴趣。outer orbit(外轨道)最引人入胜的方面之一是库伊伯带和奥尔特云的存在。库伊伯带位于海王星以外,是一个充满冰冷天体和矮行星(如冥王星)的区域。研究库伊伯带的outer orbit(外轨道)可以提供关于早期太阳系形成和演化的见解。同样,奥尔特云被认为是包围我们太阳系的冰冷物体的巨大壳层,据信是偶尔访问内太阳系的长周期彗星的来源。对outer orbit(外轨道)的探索一直是太空任务的重要焦点。美国宇航局的“新视野”号探测器在2015年飞越冥王星,提供了关于这个遥远世界及其周围环境的前所未有的数据。这些任务帮助科学家理解outer orbit(外轨道)的组成和动态,为未来的探索铺平了道路。此外,outer orbit(外轨道)也可以作为观察宇宙的一个有利位置。放置在这一地区的望远镜可以避免影响地面观测的大气扭曲。例如,哈勃太空望远镜虽然不在真正的outer orbit(外轨道)中,但在低地球轨道上运行,提供了银河系和星云的惊人图像,让我们得以一窥超越我们邻近区域的宇宙。总之,outer orbit(外轨道)代表了天文发现的前沿。它包含了多样的天体现象,并掌握着理解我们太阳系及其以外的形成的钥匙。随着技术的进步,我们将继续揭开outer orbit(外轨道)的秘密,扩展我们对宇宙及我们在其中的位置的认识。这一领域的探索不仅满足了我们的好奇心,也激励着未来的世代仰望星空,思考那超越的未知。
相关单词
