orbiting astronomical observatory

简明释义

轨道天文台轨道天文观察台

英英释义

例句

1.The orbiting astronomical observatory 轨道天文台 can observe celestial phenomena without atmospheric interference.

这座轨道天文台可以在没有大气干扰的情况下观察天体现象。

2.The launch of the new orbiting astronomical observatory 轨道天文台 marks a significant advancement in space exploration.

新轨道天文台的发射标志着太空探索的重大进展。

3.Data collected by the orbiting astronomical observatory 轨道天文台 is crucial for studying cosmic radiation.

由轨道天文台收集的数据对于研究宇宙辐射至关重要。

4.Scientists are excited about the new findings from the orbiting astronomical observatory 轨道天文台 that could change our understanding of black holes.

科学家们对来自轨道天文台的新发现感到兴奋，这可能会改变我们对黑洞的理解。

5.The orbiting astronomical observatory 轨道天文台 has provided invaluable data on distant galaxies.

这座轨道天文台提供了关于遥远星系的宝贵数据。

作文

The universe has always fascinated humanity, inspiring countless generations to explore its mysteries. One of the most significant advancements in our quest for knowledge about the cosmos has been the development of the orbiting astronomical observatory. This term refers to a scientific facility situated in space, designed to observe celestial phenomena without the interference of Earth's atmosphere. The importance of such observatories cannot be overstated as they allow astronomers to gather data that would be impossible to obtain from ground-based telescopes.The primary advantage of an orbiting astronomical observatory is its location above the Earth's atmosphere. Ground-based telescopes are limited by atmospheric distortion, which can blur and hinder observations. In contrast, an observatory in orbit can capture clearer images and gather more precise data. For instance, the Hubble Space Telescope, one of the most famous orbiting astronomical observatories, has provided breathtaking images of distant galaxies, nebulae, and other astronomical phenomena since its launch in 1990. Its ability to operate outside the atmosphere has allowed scientists to make groundbreaking discoveries about the universe's age, the existence of exoplanets, and the expansion of the universe.Moreover, orbiting astronomical observatories can observe wavelengths of light that are absorbed or scattered by the atmosphere. For example, ultraviolet and infrared observations are crucial for understanding various cosmic events, but they cannot be effectively performed from the ground. By utilizing these wavelengths, scientists can study the formation of stars, the composition of distant planets, and even the presence of organic molecules in the universe. This capability significantly enhances our understanding of the cosmos and our place within it.In addition to their observational capabilities, orbiting astronomical observatories also contribute to international collaboration in the field of astronomy. Scientists from around the world can utilize data collected by these facilities, fostering a global community dedicated to unraveling the mysteries of the universe. This collaboration has led to numerous joint projects and research initiatives, further accelerating the pace of discovery.However, maintaining and operating an orbiting astronomical observatory is not without challenges. The harsh environment of space presents technical difficulties, such as radiation exposure and extreme temperatures. Engineers and scientists must design instruments that can withstand these conditions while still delivering high-quality data. Additionally, the cost of launching and maintaining these observatories can be substantial, requiring careful planning and funding.Despite these challenges, the benefits of orbiting astronomical observatories far outweigh the difficulties. As we continue to push the boundaries of our knowledge, these facilities play a crucial role in advancing our understanding of the universe. They have revolutionized our view of the cosmos and will undoubtedly lead to many more discoveries in the years to come.In conclusion, the orbiting astronomical observatory is a remarkable achievement in modern science. By providing a platform for clear and comprehensive observations of the universe, these facilities have transformed our understanding of space. As technology advances and new missions are planned, the potential for discovery remains limitless, promising to unveil even more secrets of the cosmos that await our exploration.

宇宙一直以来都吸引着人类，激励着无数代人探索其奥秘。在我们对宇宙知识的追求中，一个重要的进展是开发了轨道天文观测台。这个术语指的是位于太空中的科学设施，旨在观察天体现象，而不受地球大气的干扰。这样的观测台的重要性不容小觑，因为它们使天文学家能够收集从地面望远镜无法获得的数据。轨道天文观测台的主要优势在于其位于地球大气之上的位置。地面望远镜受到大气扭曲的限制，这可能模糊和妨碍观测。相反，位于轨道上的观测台可以捕捉更清晰的图像并收集更精确的数据。例如，哈勃太空望远镜是最著名的轨道天文观测台之一，自1990年发射以来，它提供了令人惊叹的遥远星系、星云和其他天文现象的图像。它在大气之外工作的能力使科学家能够对宇宙的年龄、外行星的存在以及宇宙的扩张等方面做出突破性的发现。此外，轨道天文观测台可以观察被大气吸收或散射的光波长。例如，紫外线和红外线观测对于理解各种宇宙事件至关重要，但从地面上无法有效进行。通过利用这些波长，科学家可以研究恒星的形成、遥远行星的成分，甚至宇宙中有机分子的存在。这种能力显著增强了我们对宇宙及我们在其中位置的理解。除了观察能力，轨道天文观测台还促进了天文学领域的国际合作。来自世界各地的科学家可以利用这些设施收集的数据，培养一个致力于揭示宇宙奥秘的全球社区。这种合作导致了许多联合项目和研究倡议，进一步加快了发现的步伐。然而，维护和操作轨道天文观测台并非没有挑战。太空的恶劣环境带来了技术困难，例如辐射暴露和极端温度。工程师和科学家必须设计能够承受这些条件的仪器，同时仍能提供高质量的数据。此外，发射和维护这些观测台的成本可能相当可观，需要仔细规划和资金支持。尽管面临这些挑战，轨道天文观测台的好处远远超过困难。随着我们不断推动知识的边界，这些设施在推进我们对宇宙的理解方面发挥了关键作用。它们彻底改变了我们对宇宙的看法，并无疑将在未来几年内带来更多的发现。总之，轨道天文观测台是现代科学的一项杰出成就。通过提供一个清晰而全面观察宇宙的平台，这些设施已经改变了我们对太空的理解。随着技术的进步和新任务的计划，发现的潜力仍然是无限的，承诺揭示更多等待我们探索的宇宙秘密。