planetological
简明释义
英[ˌplænɪtəˈlɒdʒɪkəl]美[ˌplænɪtəˈlɑdʒɪkəl]
adj. 行星学的
英英释义
Relating to the scientific study of planets, including their formation, structure, and potential for supporting life. | 与行星的科学研究有关,包括它们的形成、结构和支持生命的潜力。 |
单词用法
行星学研究 | |
行星学研究 | |
行星学数据 | |
行星学过程 |
同义词
反义词
| 地球的 | The terrestrial environment is crucial for understanding life on Earth. | 地球环境对于理解地球上的生命至关重要。 | |
| 地质的 | Geological processes shape the landscape over millions of years. | 地质过程在数百万年间塑造了地貌。 |
例句
1.This book goes to the heart of current planetological research, and illustrates it with many beautiful images.
这本书以行星研究理论为核心,并用许多美丽的图像证明这些理论。
2.This book goes to the heart of current planetological research, and illustrates it with many beautiful images.
这本书以行星研究理论为核心,并用许多美丽的图像证明这些理论。
3.The planetological 行星学的 data collected from the rover provided new insights into the surface of Venus.
从探测器收集的行星学的数据为金星表面提供了新的见解。
4.The research team published a paper on the planetological 行星学的 features of Mars.
研究小组发表了一篇关于火星的行星学的特征的论文。
5.He is an expert in planetological 行星学的 studies, particularly regarding exoplanets.
他是行星学的研究专家,特别是在系外行星方面。
6.Her thesis focused on the planetological 行星学的 processes that shape planetary atmospheres.
她的论文集中于塑造行星大气的行星学的过程。
7.The conference included discussions on planetological 行星学的 models and simulations.
会议包括对行星学的模型和模拟的讨论。
作文
The study of planets, known as planetological research, plays a crucial role in our understanding of the universe. As we delve deeper into the mysteries of celestial bodies, we uncover not only their physical characteristics but also their potential for supporting life. The field of planetological science encompasses various disciplines, including geology, atmospheric sciences, and even biology, as researchers seek to understand how different environments affect the possibility of life beyond Earth.One of the most significant aspects of planetological studies is the exploration of our solar system. Missions to Mars, for instance, have provided invaluable data about the planet's surface, climate, and potential for past or present life. The planetological findings from these missions have sparked debates about the future of human colonization of Mars and the ethical implications of such endeavors.Moreover, planetological research extends beyond our immediate cosmic neighborhood. Scientists are now investigating exoplanets—planets that orbit stars outside our solar system. The discovery of potentially habitable exoplanets has opened new avenues for understanding the conditions necessary for life. By analyzing the atmospheres and compositions of these distant worlds, planetological scientists aim to identify environments that may support life as we know it, or even life forms that differ significantly from those on Earth.Additionally, planetological studies contribute to our knowledge of climate change. By examining other planets and their climates, such as Venus and its greenhouse effect, we can gain insights into the long-term effects of climate change on Earth. Understanding how different planetary systems operate allows us to draw parallels and contrasts, enhancing our comprehension of our own planet's dynamics.The technological advancements in planetological research have been remarkable. Space telescopes, rovers, and landers have revolutionized our ability to gather data from remote locations. These tools enable scientists to conduct experiments and analyze samples in ways that were previously unimaginable. For example, the Mars Rover Perseverance is equipped with sophisticated instruments designed to search for signs of ancient microbial life, showcasing the intersection of planetological science and cutting-edge technology.Furthermore, the interdisciplinary nature of planetological research fosters collaboration among scientists from various fields. Geologists, chemists, physicists, and biologists work together to piece together the puzzle of planetary formation and evolution. This collaborative approach not only enriches our understanding of planets but also enhances scientific innovation and discovery.In conclusion, planetological research is essential for exploring the vastness of space and understanding our place within it. The insights gained from studying planets can inform our knowledge of Earth, aid in the search for extraterrestrial life, and inspire future generations of scientists. As we continue to push the boundaries of exploration, the field of planetological science will undoubtedly yield even more groundbreaking discoveries that challenge our perceptions of the universe and our role in it.
行星研究,即planetological研究,对于我们理解宇宙起着至关重要的作用。当我们深入探索天体的奥秘时,不仅揭示了它们的物理特征,还揭示了它们支持生命的潜力。planetological科学领域包括地质学、大气科学,甚至生物学,因为研究人员试图了解不同环境如何影响地球以外生命的可能性。planetological研究最重要的方面之一是对我们太阳系的探索。例如,火星任务提供了关于该行星表面、气候和过去或现在生命潜力的宝贵数据。这些任务的planetological发现引发了关于人类殖民火星未来及其伦理影响的辩论。此外,planetological研究不仅限于我们周围的宇宙。科学家们正在调查系外行星——绕太阳系外恒星运行的行星。潜在可居住系外行星的发现为理解生命所需条件开辟了新途径。通过分析这些遥远世界的气氛和成分,planetological科学家旨在识别可能支持生命的环境,甚至与地球上截然不同的生命形式。此外,planetological研究有助于我们对气候变化的认识。通过研究其他行星及其气候,例如金星及其温室效应,我们可以获得关于气候变化对地球长期影响的见解。理解不同行星系统的运作方式使我们能够进行类比和对比,从而增强我们对自身星球动态的理解。在planetological研究中的技术进步是显著的。太空望远镜、探测器和着陆器彻底改变了我们从遥远地点收集数据的能力。这些工具使科学家能够进行实验并以以前无法想象的方式分析样本。例如,火星探测车“毅力号”配备了先进的仪器,旨在寻找古代微生物生命的迹象,展示了planetological科学与尖端技术的交汇。此外,planetological研究的跨学科性质促进了来自各个领域科学家的合作。地质学家、化学家、物理学家和生物学家共同努力,拼凑出行星形成和演化的拼图。这种合作方式不仅丰富了我们对行星的理解,还增强了科学创新和发现。总之,planetological研究对于探索浩瀚的太空和理解我们在其中的位置至关重要。从研究行星中获得的见解可以为我们对地球的知识提供信息,帮助寻找外星生命,并激励未来一代科学家。随着我们继续推动探索的边界,planetological科学领域无疑会产生更多突破性的发现,挑战我们对宇宙及其在其中角色的看法。
