interplanetary

简明释义

英[ˌɪntəˈplænɪtri]美[ˌɪntərˈplænəteri]

adj. 太阳系内的；行星间的

英英释义

单词用法

同义词

反义词

例句

1.Cerf has been working with NASA's Pasadena Jet Propulsion Laboratory—the people behind the recent Mars expedition—to design what he calls an "interplanetary Internet protocol."

瑟夫一直在与美国宇航局的帕萨迪纳喷气推进实验室（最近火星探测的幕后人员）合作，设计他所说的“星际互联网协议”。

2.The gegenschein is sunlight back-scattered off small interplanetary dust particles.

对日照是日光经由尘埃粒子的反向散射所造成的。

3.Whatever stage we may regard as the beginning of the ear of interplanetary communication we shall never be able to reach its end.

无论把哪个阶段认为是星际交通时代的开始，我们都将永远达不到它的尽头。

4.The encounters occur under conditions of weak and steady southward Interplanetary Magnetic Field (IMF).

这两次穿越是在弱而稳定的南向行星际磁场(IMF)条件下发生的。

5.The interplanetary magnetic field fluctuates greatly in magnitude and direction.

行星际磁场在不同的星等和方向强度差别很大。

6.The remnant nebular gas pervades the interplanetary space.

星云的残余气体充斥星际空间。

7.The spacecraft was designed for interplanetary travel, allowing it to explore multiple planets in our solar system.

这艘宇宙飞船是为行星间旅行而设计的，使其能够探索我们太阳系中的多个行星。

8.The mission aims to establish a permanent interplanetary base on Mars for future exploration.

该任务旨在在火星上建立一个永久的行星间基地，以便进行未来的探索。

9.The concept of interplanetary travel has fascinated humans for centuries, inspiring countless works of science fiction.

对于行星间旅行的概念吸引了人类几个世纪，激发了无数科幻作品。

10.Scientists are studying interplanetary communication methods to improve data transmission between Earth and Mars.

科学家们正在研究行星间通信方法，以改善地球与火星之间的数据传输。

11.Astronomers have discovered new interplanetary objects that could provide insights into the formation of our solar system.

天文学家发现了新的行星间天体，这些天体可能为我们太阳系的形成提供见解。

作文

The concept of interplanetary travel has fascinated humanity for centuries. From the early days of astronomy, where celestial bodies were observed through rudimentary telescopes, to the modern era of advanced space exploration, the idea of journeying between planets has captured our imagination. The term interplanetary refers to anything that occurs or exists between different planets within our solar system. This includes not only the physical travel between these celestial bodies but also the study of their characteristics, atmospheres, and potential for supporting life.As technology has advanced, so too have our capabilities for interplanetary exploration. The successful landing of rovers on Mars, such as Curiosity and Perseverance, has provided invaluable data about the Martian surface and atmosphere. These missions have sparked interest in the possibility of human colonization of Mars, which would represent a significant leap in interplanetary travel. Scientists and engineers are currently working on developing spacecraft that can carry humans safely to other planets, with plans for missions to Mars being a primary focus.The challenges associated with interplanetary travel are immense. Distance is one of the most significant barriers; for example, Mars is about 225 million kilometers away from Earth at its closest approach. This vast distance means that any mission to Mars requires careful planning and consideration of the time it will take to travel there. Current spacecraft take several months to reach Mars, and this duration presents logistical challenges for crewed missions. Astronauts will need to be prepared for long durations in space, which raises concerns about their physical and mental well-being during interplanetary journeys.Another challenge is the harsh environment of space. Cosmic radiation, microgravity, and extreme temperatures can pose serious risks to human health. To mitigate these risks, researchers are investigating protective measures, such as advanced spacecraft shielding and life support systems that can sustain a crew for extended periods. The development of sustainable habitats on other planets is also a crucial aspect of future interplanetary missions, allowing astronauts to live and work away from Earth.Moreover, the exploration of other planets has implications beyond just human travel. Understanding the geology and climate of planets like Mars and Venus can provide insights into the history of our solar system and the potential for life elsewhere. For instance, the discovery of ancient riverbeds and signs of water on Mars has led scientists to speculate about the planet's past conditions and whether it could have supported microbial life. These findings not only enhance our understanding of planetary science but also fuel the ongoing search for extraterrestrial life.In conclusion, the pursuit of interplanetary travel is an exciting frontier in science and exploration. As we continue to develop new technologies and deepen our understanding of the universe, the dream of traveling between planets may become a reality. The challenges are significant, but the potential rewards—both in terms of scientific knowledge and the possibility of human settlement beyond Earth—are equally profound. As we look to the stars, the concept of interplanetary exploration reminds us of our innate curiosity and desire to explore the unknown, pushing the boundaries of what is possible in our quest to understand the cosmos.

“星际”旅行的概念数世纪以来一直吸引着人类。从天文学的早期阶段，通过简陋的望远镜观察天体，到现代先进的太空探索时代，穿越行星之间的想法一直捕捉着我们的想象力。术语“interplanetary”指的是在我们太阳系内不同行星之间发生或存在的任何事物。这不仅包括在这些天体之间的物理旅行，还包括对它们的特征、气候和支持生命潜力的研究。随着技术的进步，我们的< span>interplanetary 探索能力也随之提高。像好奇号和毅力号这样的探测器成功着陆火星，为我们提供了关于火星表面和大气的重要数据。这些任务激发了人们对火星人类殖民可能性的兴趣，这将代表< span>interplanetary 旅行的一次重大飞跃。科学家和工程师目前正在致力于开发能够安全将人类送往其他行星的航天器，前往火星的任务是主要关注点。与< span>interplanetary 旅行相关的挑战是巨大的。距离是最重要的障碍之一；例如，火星在最接近地球时约为2.25亿公里。这一巨大距离意味着任何前往火星的任务都需要仔细规划和考虑到到达那里的时间。目前的航天器需要几个月才能到达火星，而这个持续时间给载人任务带来了后勤挑战。宇航员需要为在太空中度过长时间做好准备，这引发了对他们在< span>interplanetary 旅行期间身体和心理健康的担忧。另一个挑战是太空的恶劣环境。宇宙辐射、微重力和极端温度可能对人类健康构成严重风险。为了减轻这些风险，研究人员正在研究保护措施，例如先进的航天器屏蔽和能够在较长时间内维持船员的生命支持系统。在其他行星上开发可持续栖息地也是未来< span>interplanetary 任务的关键方面，使宇航员能够在远离地球的地方生活和工作。此外，对其他行星的探索超越了人类旅行的范畴。了解火星和金星的地质和气候可以为我们提供关于太阳系历史和其他地方生命潜力的见解。例如，发现古老河床和水的迹象使科学家推测火星过去的条件以及它是否能够支持微生物生命。这些发现不仅增强了我们对行星科学的理解，还推动了对外星生命的持续探索。总之，追求< span>interplanetary 旅行是科学和探索中的一个令人兴奋的前沿。随着我们继续开发新技术并加深对宇宙的理解，穿越行星的梦想可能会成为现实。挑战是显著的，但潜在的回报——无论是在科学知识还是人类在地球之外定居的可能性方面——同样深远。当我们仰望星空时，< span>interplanetary 探索的概念提醒着我们与生俱来的好奇心和探索未知的渴望，推动着我们在理解宇宙的追求中拓展可能的边界。