transplanetary space

简明释义

行星外空间

英英释义

例句

1.The mission aims to establish a communication network in transplanetary space 跨行星空间 for future explorations.

该任务旨在为未来的探索建立一个跨行星空间的通信网络。

2.Scientists are studying the effects of radiation in transplanetary space 跨行星空间 on human health.

科学家正在研究跨行星空间中辐射对人类健康的影响。

3.Robotic missions will be sent to gather data from transplanetary space 跨行星空间 between Mars and Jupiter.

将派遣机器人任务收集来自火星和木星之间的跨行星空间的数据。

4.Astronomers have discovered new celestial bodies in transplanetary space 跨行星空间 that could harbor life.

天文学家在跨行星空间中发现了可能孕育生命的新天体。

5.The new spacecraft is designed to travel through transplanetary space 跨行星空间 efficiently.

这艘新航天器旨在高效穿越跨行星空间。

作文

In recent years, the concept of space exploration has transcended mere curiosity and ventured into the realms of practicality and necessity. As humanity continues to expand its horizons, the idea of traveling through transplanetary space becomes increasingly relevant. This term refers to the vast expanse that exists between planets, encompassing not only the physical distance but also the challenges and opportunities that come with interplanetary travel. Transplanetary space is not just a void; it is a dynamic environment filled with cosmic phenomena, potential resources, and the promise of discovery.The exploration of transplanetary space holds immense significance for our future. As Earth's resources dwindle and the population continues to grow, looking beyond our planet may provide solutions to some of the most pressing issues we face. For instance, Mars, often referred to as our next home, lies within transplanetary space. Its surface holds evidence of water, which could be crucial for sustaining human life. Moreover, the potential for mining asteroids located in transplanetary space offers a new frontier for acquiring rare minerals that are vital for technology and industry.However, traveling through transplanetary space is fraught with challenges. The vast distances involved mean that missions can take months or even years, requiring advanced technology and careful planning. Spacecraft must be equipped to handle the harsh conditions of transplanetary space, including radiation, microgravity, and extreme temperatures. Furthermore, ensuring the safety and well-being of astronauts during long-duration missions poses significant psychological and physiological challenges.Despite these hurdles, advancements in technology are paving the way for more ambitious missions. Companies like SpaceX and NASA are investing heavily in developing spacecraft capable of traversing transplanetary space. The Artemis program, for example, aims to return humans to the Moon and establish a sustainable presence there, serving as a stepping stone for future journeys to Mars and beyond. Such initiatives not only enhance our understanding of transplanetary space but also inspire a new generation of scientists and explorers.Moreover, the exploration of transplanetary space fosters international collaboration. Countries around the world are recognizing the importance of working together to achieve common goals in space exploration. The International Space Station (ISS) is a prime example of how nations can unite their resources and expertise to push the boundaries of what is possible in transplanetary space. By sharing knowledge and technology, we can accelerate our progress and ensure that the exploration of transplanetary space benefits all of humanity.In conclusion, the concept of transplanetary space is integral to our future as we seek to explore beyond our home planet. It represents not only the physical distance between celestial bodies but also the myriad possibilities that lie ahead. As we continue to develop the technologies and partnerships necessary for successful missions, we will unlock the secrets of transplanetary space and pave the way for a new era of exploration that could change the course of human history. The journey into transplanetary space is not merely a quest for knowledge; it is a fundamental step toward ensuring the survival and prosperity of our species in the cosmos.

近年来，太空探索的概念超越了单纯的好奇心，进入了实用性和必要性的领域。随着人类不断扩展视野，穿越跨行星空间的旅行理念变得愈发重要。这个术语指的是存在于行星之间的广阔空间，不仅包括物理距离，还有与行星间旅行相关的挑战和机遇。跨行星空间不仅仅是一个空洞；它是一个充满宇宙现象、潜在资源和发现承诺的动态环境。探索跨行星空间对我们的未来具有重要意义。随着地球资源的枯竭和人口的持续增长，向外寻找解决方案可能为我们面临的一些最紧迫的问题提供答案。例如，火星常被称为我们的下一个家，它位于跨行星空间之内，其表面有水的证据，这对维持人类生命至关重要。此外，位于跨行星空间的矿物小行星开采的潜力为获取技术和工业所需的稀有矿物提供了新的前沿。然而，穿越跨行星空间充满挑战。涉及的巨大距离意味着任务可能需要数月甚至数年，这要求先进的技术和周密的规划。航天器必须配备应对跨行星空间严酷条件的能力，包括辐射、微重力和极端温度。此外，确保宇航员在长时间任务中的安全和健康也带来了显著的心理和生理挑战。尽管面临这些困难，技术的进步正在为更雄心勃勃的任务铺平道路。像SpaceX和NASA这样的公司正在大力投资开发能够穿越跨行星空间的航天器。例如，阿尔忒弥斯计划旨在将人类送回月球，并在月球上建立可持续存在，为未来前往火星及更远的旅程奠定基础。这些举措不仅增强了我们对跨行星空间的理解，还激励了新一代科学家和探索者。此外，探索跨行星空间促进了国际合作。世界各国认识到共同实现太空探索共同目标的重要性。国际空间站（ISS）就是一个国家可以团结资源和专业知识，推动跨行星空间可能性边界的典范。通过共享知识和技术，我们可以加速进程，确保跨行星空间的探索惠及全人类。总之，跨行星空间的概念对我们未来的探索至关重要，因为我们寻求超越家园行星。它不仅代表着天体之间的物理距离，也代表着未来无数的可能性。随着我们继续开发成功任务所需的技术和伙伴关系，我们将揭开跨行星空间的秘密，为探索的新纪元铺平道路，这可能改变人类历史的进程。进入跨行星空间的旅程不仅仅是知识的追求；它是确保我们物种在宇宙中生存和繁荣的基本步骤。