astronautic
简明释义
英[ˌæstrəˈnɔːtɪk]美[æstrəˈnɔːtɪk]
adj. 太空航行的;宇航员的
英英释义
Relating to the science and technology of space travel and exploration. | 与太空旅行和探索的科学及技术相关的。 |
单词用法
航天研究 | |
航天工程 | |
航天技术 | |
航天任务 | |
航天训练 | |
航天成就 |
同义词
反义词
| 地球的 | The terrestrial environment is vastly different from the conditions in space. | 地球环境与太空条件截然不同。 | |
| 受地球限制的 | Many species are earthbound and cannot survive in outer space. | 许多物种是受地球限制的,无法在外层空间生存。 |
例句
1.Functionally graded materials (FGMs), a kind of new type nonhomogeneous materials, have significant applications in the astronautic and aeronautic fields.
功能梯度材料作为一种新型的非均匀材料在航空航天中有着重要的应用价值。
2.With the development of aeronautic and astronautic engineering, the velocity and the height of the vehicle are ever increasing.
随着航空、航天工程的迅猛发展,飞行器的速度和高度不断增加。
3.Materials with zero thermal expansion coefficients benefit to improve the geometrical stabilities of aeronautic and astronautic structures and electric equipment under great temperature changes.
零膨胀材料对提高航空航天结构和电子设备等的热几何稳定性有重要意义。
4.Especially, in industrial, medical, martial, automotive, aeronautic and astronautic fields RPT has been applied widely.
尤其在工业、医学、军事、汽车、航空和航天等领域得到广泛应用。
5.The power supply of launch site is very important in astronautic industry. A redundant system can be used to ensure the reliability.
航天发射场的供配电系统是给发射场提供动力的关键设备,直接影响发射场的可靠性。
6.It can be found in the processes of coal dust transportation, crude oil recovery, sewage discharge, dust measurement, air conveying, astronautic and aeronautic propulsion, etc.
煤粉输送、原油开采、污水排放、粉尘测量、气力输送、航空航天推进等生产、工作过程都包含气粒多相流动。
7.By means of THT, problems on machining large-scale titanium alloy parts for aeronautic and astronautic applications could be solved.
利用该项技术可望解决航空航天用大尺寸钛合金零件的切削加工技术难题。
8.The astronautic 宇航的 community is preparing for the next manned mission to Mars.
宇航的社区正在为下一次载人火星任务做准备。
9.His career in astronautic 宇航的 engineering has taken him to many space agencies around the world.
他在宇航的工程领域的职业生涯使他走访了世界各地的许多航天机构。
10.The astronautic 宇航的 research conducted by the agency has led to significant discoveries.
该机构进行的宇航的研究已导致重要发现。
11.The new training program focuses on improving the skills necessary for astronautic 宇航的 missions.
新的培训计划专注于提高执行宇航的任务所需的技能。
12.She has always been fascinated by astronautic 宇航的 technology and its advancements.
她一直对宇航的技术及其进步感到着迷。
作文
The term astronautic refers to the science and technology related to space travel and exploration. As humanity continues to push the boundaries of what is possible, the field of astronautic has become increasingly significant. This essay will explore the importance of astronautic advancements, the challenges faced by astronauts, and the future of space exploration. Firstly, the advancements in astronautic technology have enabled us to explore beyond our planet in ways that were once thought impossible. From the launch of the first human-made satellite, Sputnik, in 1957 to the recent Mars rover missions, each achievement has expanded our understanding of the universe. The development of rockets, spacecraft, and life-support systems has been crucial in making long-duration space missions feasible. The International Space Station (ISS), a marvel of astronautic engineering, serves as a laboratory for scientific research and international collaboration. It allows scientists to conduct experiments in microgravity, which can lead to breakthroughs in various fields such as medicine, materials science, and environmental studies. However, the journey into space is not without its challenges. Astronauts face numerous risks and difficulties during their missions. The physical and psychological effects of prolonged exposure to microgravity can be significant. For instance, astronauts experience muscle atrophy and bone density loss, which can pose serious health risks upon their return to Earth. Moreover, the isolation and confinement of space travel can lead to psychological stress. Training for these challenges is an essential part of an astronaut's preparation, emphasizing the need for resilience and teamwork. The rigorous selection process ensures that only the most capable individuals embark on astronautic missions. Looking ahead, the future of astronautic exploration is filled with exciting possibilities. Plans for manned missions to Mars are in development, with various space agencies and private companies working towards this ambitious goal. The colonization of other planets could become a reality, offering new opportunities for humanity. Additionally, advancements in technology, such as reusable rockets and sustainable life-support systems, will play a vital role in making space travel more accessible and economical. The exploration of asteroids and other celestial bodies may also yield valuable resources, potentially transforming our economy and way of life. In conclusion, the field of astronautic is a testament to human ingenuity and determination. As we continue to explore the cosmos, we must address the challenges that come with it while embracing the potential benefits of our discoveries. The future of astronautic exploration holds great promise, and it is essential for us to invest in this field to ensure that we remain at the forefront of scientific advancement. The journey into space is not just a quest for knowledge; it is a step towards securing a sustainable future for humanity beyond Earth. In summary, astronautic (宇航的) represents a critical area of study and exploration that has the power to transform our understanding of the universe and our place within it. As we look to the stars, let us remember the importance of perseverance, innovation, and collaboration in achieving our goals.
术语astronautic(宇航的)指与太空旅行和探索相关的科学和技术。随着人类不断突破可能性的界限,astronautic领域变得越来越重要。本文将探讨astronautic技术进步的重要性、宇航员面临的挑战以及未来的太空探索。 首先,astronautic技术的进步使我们能够以曾经认为不可能的方式探索地球之外。从1957年发射的首个人造卫星斯普特尼克到最近的火星探测车任务,每一项成就都扩展了我们对宇宙的理解。火箭、航天器和生命支持系统的发展对于使长期太空任务成为可能至关重要。国际空间站(ISS)是astronautic工程的奇迹,它作为科学研究和国际合作的实验室。它允许科学家在微重力环境中进行实验,这可以在医学、材料科学和环境研究等多个领域带来突破。 然而,进入太空的旅程并非没有挑战。宇航员在任务期间面临众多风险和困难。长期暴露于微重力环境中的身体和心理影响可能是显著的。例如,宇航员会经历肌肉萎缩和骨密度下降,这在返回地球时可能会带来严重的健康风险。此外,太空旅行的孤立和封闭可能导致心理压力。针对这些挑战的训练是宇航员准备的重要部分,强调了韧性和团队合作的必要性。严格的选拔过程确保只有最有能力的人才能参加astronautic任务。 展望未来,astronautic探索的前景充满令人兴奋的可能性。载人火星任务的计划正在开发中,各个航天机构和私人公司都在为这一雄心勃勃的目标而努力。其他行星的殖民化可能成为现实,为人类提供新的机会。此外,技术的进步,如可重复使用的火箭和可持续的生命支持系统,将在使太空旅行更易获得和经济上发挥重要作用。对小行星和其他天体的探索也可能带来宝贵的资源,潜在地改变我们的经济和生活方式。 总之,astronautic(宇航的)领域是人类创造力和决心的证明。随着我们继续探索宇宙,我们必须应对随之而来的挑战,同时拥抱我们发现的潜在好处。astronautic探索的未来充满希望,我们必须在这一领域进行投资,以确保我们在科学进步的前沿。进入太空的旅程不仅仅是对知识的追求;这是确保人类在地球之外可持续未来的一步。 总之,astronautic(宇航的)代表了一个关键的研究和探索领域,具有改变我们对宇宙及其在其中的位置的能力。当我们仰望星空时,让我们记住在实现目标时坚持、创新和合作的重要性。
