astronautical

简明释义

[ˌæstrəˈnɔːtɪkəl][ˌæstrəˈnɔtɪkəl]

adj. 宇航的;太空航行学的;航天员的(等于 astronautic)

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

astronautical engineering

航天工程

astronautical science

航天科学

astronautical missions

航天任务

astronautical research

航天研究

astronautical technology

航天技术

astronautical navigation

航天导航

同义词

space

太空的

space exploration

太空探索

aerospace

航空航天的

aerospace engineering

航空航天工程

cosmic

宇宙的

cosmic phenomena

宇宙现象

反义词

terrestrial

地球的

The terrestrial environment is vastly different from that of space.

地球环境与太空环境截然不同。

earthbound

受地球限制的

Many earthbound species cannot survive in the harsh conditions of outer space.

许多地球物种无法在外太空的恶劣条件下生存。

例句

1.The news wasannounced at the same meeting of the International Astronautical Congress where Elon Musk revealed his plans for colonizing Mars.

这个新闻在国际宇航大会上得到发布,而就在同一个会议上,马斯克公布了其殖民火星的计划。

2.The nano polymer ball may find its wide application in new generation of microelectronic and astronautical devices as high purity nano stuffing, paint and adsorbing and separating material.

在新一代微电子和航天器件的高纯度纳米填充物、涂料、作为全新高效纳米吸附分离材料在环境、制药等领域有广阔应用前景。

3.The finding is being released this week at the 60th International Astronautical Congress, the world's biggest space conference, being held in Daejeon, South Korea.

本周,在韩国大田市召开的第六十届国际宇航大会上,发布了这项研究成果。这是世界最重要的空间会议。

4.Measures usually taken in the astronautical engineering are to install baffles in the propellant fuel container.

常用的增加液体晃动阻尼的措施是在推进剂贮箱内安装防晃板。

5.Aeronautical and astronautical engineering is a compulsory course for students whose specialties are aerospace propulsion, aerospace manufacturing and other related major.

本课程是航空宇航推进理论与工程、航空宇航制造工程等专业的必修课程。

6.The nano polymer ball may find its wide application in new generation of microelectronic and astronautical devices as high purity nano stuffing, paint and adsorbing and separating material.

在新一代微电子和航天器件的高纯度纳米填充物、涂料、作为全新高效纳米吸附分离材料在环境、制药等领域有广阔应用前景。

7.Considering the present environment of China, the way to apply astronautical technology in foundational industry and reasonable measures to be adopted have also been put forward.

结合我国实际情况,提出了我国航天技术向基础工业转移的途径和应采取的对策。

8.The aeronautical and astronautical characteristic discipline is qualified of Doctoral Degree granting and provided with a Post-Doctoral Research Center.

该学科是具有航天特色的学科,具有博士学位授予权并设有博士后流动站。

9.The university offers a degree in astronautical 航天的 engineering.

这所大学提供航天的工程学位课程。

10.The astronautical 航天的 community gathered to discuss future missions to Mars.

航天界聚集在一起讨论未来的火星任务。

11.The new research center focuses on astronautical 航天的 engineering and technology.

这个新的研究中心专注于航天的工程和技术。

12.Her thesis on astronautical 航天的 navigation systems was highly praised.

她关于航天的导航系统的论文受到高度赞扬。

13.He is studying astronautical 航天的 mechanics to prepare for a career in space exploration.

他正在学习航天的力学,以为进入太空探索的职业做准备。

作文

The field of space exploration has always fascinated humanity, and as we advance technologically, the importance of astronautical endeavors becomes ever more crucial. The term astronautical refers to anything related to the science and technology of space travel and exploration. This includes the design and operation of spacecraft, the study of celestial bodies, and the training of astronauts who venture into the cosmos. In recent years, the interest in astronautical activities has surged, driven by both governmental space agencies and private enterprises. One of the most significant milestones in astronautical history was the Apollo 11 mission, which successfully landed humans on the Moon for the first time in 1969. This remarkable achievement not only showcased the capabilities of astronautical engineering but also inspired generations to dream about the possibilities of space travel. The Apollo program demonstrated that with sufficient investment in astronautical research and development, humanity could overcome the challenges of space travel. Today, we are witnessing a new era of astronautical exploration. Companies like SpaceX and Blue Origin are pioneering reusable rocket technology, which significantly reduces the cost of launching payloads into orbit. These advancements are making space more accessible than ever before. As a result, we are seeing an increase in astronautical missions aimed at exploring Mars, asteroids, and beyond. The potential for resource extraction from these celestial bodies could revolutionize our economy and provide solutions to some of Earth's pressing issues. Moreover, the study of astronautical phenomena is not limited to human exploration. Robotic missions, such as the Mars rovers and the Voyager probes, have expanded our understanding of the solar system and the universe. These missions rely heavily on astronautical technology to gather data and send it back to Earth for analysis. The information gleaned from these missions has profound implications for our understanding of the origins of life and the potential for life beyond our planet. In addition to technological advancements, the field of astronautical science also raises important ethical questions. As we explore other planets and moons, we must consider the impact of our actions on these pristine environments. The concept of planetary protection is critical in ensuring that we do not contaminate other worlds with Earth-based organisms. This ethical consideration is becoming increasingly relevant as we plan future astronautical missions. Furthermore, the collaboration between nations in astronautical endeavors can foster international cooperation and peace. The International Space Station (ISS) is a prime example of how countries can work together toward a common goal. Scientists and engineers from around the world contribute to research aboard the ISS, leading to advancements in various fields, including medicine, materials science, and environmental monitoring. In conclusion, the world of astronautical exploration is vast and filled with opportunities. As we continue to push the boundaries of what is possible, we must embrace the challenges and responsibilities that come with it. The future of astronautical science holds the promise of new discoveries and innovations that could benefit all of humanity. We stand on the brink of a new frontier, and it is up to us to navigate it wisely and ethically.

太空探索领域一直吸引着人类,随着科技的进步,航天事业的重要性变得愈发关键。术语航天指的是与太空旅行和探索相关的科学和技术。这包括航天器的设计和操作、天体的研究以及训练那些进入宇宙的宇航员。近年来,政府空间机构和私人企业对航天活动的兴趣激增。在航天历史上,一个重要的里程碑是阿波罗11号任务,它于1969年成功将人类首次送上月球。这一非凡成就不仅展示了航天工程的能力,还激励了一代又一代人去梦想太空旅行的可能性。阿波罗计划证明,只要在航天研究和开发上投入足够的资金,人类就能够克服太空旅行的挑战。如今,我们正见证一个新的航天探索时代。像SpaceX和蓝色起源这样的公司正在开创可重复使用火箭技术,这大大降低了将有效载荷发射到轨道的成本。这些进展使太空比以往任何时候都更加可及。因此,我们看到针对火星、小行星等的航天任务数量增加。从这些天体提取资源的潜力可能会彻底改变我们的经济,并为解决地球上一些紧迫的问题提供解决方案。此外,对航天现象的研究并不限于人类探索。机器人任务,例如火星探测车和旅行者探测器,扩展了我们对太阳系和宇宙的理解。这些任务在很大程度上依赖于航天技术来收集数据并将其发送回地球进行分析。从这些任务中获得的信息对我们理解生命的起源以及地球以外生命的潜力具有深远的影响。除了技术进步,航天科学领域还提出了重要的伦理问题。当我们探索其他行星和卫星时,我们必须考虑我们的行为对这些原始环境的影响。行星保护的概念在确保我们不以地球生物污染其他世界方面至关重要。随着我们计划未来的航天任务,这一伦理考量变得愈加相关。此外,各国在航天事业中的合作可以促进国际合作与和平。国际空间站(ISS)就是一个国家可以朝着共同目标协作的典范。来自世界各地的科学家和工程师为国际空间站上的研究做出贡献,促进了医学、材料科学和环境监测等多个领域的进步。总之,航天探索的世界广阔而充满机遇。随着我们继续推动可能性的边界,我们必须接受随之而来的挑战和责任。航天科学的未来承诺将带来新的发现和创新,造福全人类。我们站在新边疆的边缘,如何明智而有道德地导航将取决于我们。