suborbital
简明释义
adj. 眶下的;亚轨道的;不满轨道一整圈的
英英释义
单词用法
进行亚轨道飞行 | |
发射亚轨道火箭 | |
体验亚轨道失重 | |
亚轨道旅游 | |
亚轨道研究 | |
亚轨道发射 |
同义词
反义词
轨道的 | 这颗卫星在地球周围的轨道上运行。 | ||
轨道间的 | Interorbital communication is essential for coordinating multiple spacecraft. | 轨道间通信对于协调多个航天器至关重要。 |
例句
1.The rocket launch is NASA? S first suborbital test of the new Ares I booster to launch astronauts to space aboard its shuttle successor, the Orion craft.
这次发射是NASA新型火箭的第一次亚轨道飞行测试,成熟后的战神I号将替代航天飞机,搭载猎户太空舱进行载人航天的任务。
2.And in 2011 the Spaceship Company will start the world’s first spaceship production line—making the craft needed by Virgin Galactic to take tourists on suborbital flights.
此外,飞船公司(Spaceship Company )在2011年将启动全球首个宇宙飞船生产线,为维京银河(Virgin Galactic)公司制造进行亚轨道载客飞行的飞船。
3.It fits very nicely with the suborbital problem. You don't need that ragged performance envelope.
它非常适合于解决亚轨道旅游的问题,并不需要那些参差不齐的性能图表。
4.More recently, companies have begun to plan more affordable "suborbital" flights—briefer ventures just to the edge of space's vast darkness.
最近,一些公司已经开始计划更经济实惠的“亚轨道”飞行——在太空无际黑暗的边缘进行更短时间的冒险。
5.But his suborbital hop lasted just 15 minutes.
但是他的亚轨道飞行仅仅持续了15分钟。
6.The Copenhagen Suborbital founders have said that their motivation for building a spacecraft was partly personal.
哥本哈根次轨道组织创立者表示,他们建造航天飞船的动机部分是出于个人目的。
7.A suborbital vehicle is limited by the laws of ballistics and only lasts a few minutes.
亚轨道运载工具受轨道定律所限,只能呆上几分钟。
8.But more recently, companies have begun to plan more affordable "suborbital" flights—briefer ventures just to the edge of space's vast darkness.
但是最近,公司已经开始计划更便宜的“亚轨道”飞行,在太空无际黑暗的边缘进行更短时间的冒险。
9.In this article, 100 maxilla samples of the Kunming area werc takcn for observing the suborbital foramen and infraorbital canal and their relative data.
本文使用了昆明地区100例上颌骨标本观测了眶下孔、眶下管及其它相关的数据。
10.NASA conducted a suborbital test flight to gather data on atmospheric conditions.
NASA进行了一次亚轨道测试飞行,以收集大气条件的数据。
11.Scientists are using suborbital flights to conduct experiments in microgravity.
科学家们正在利用亚轨道飞行在微重力环境中进行实验。
12.Many private companies are investing in suborbital missions to promote space tourism.
许多私人公司正在投资于亚轨道任务,以促进太空旅游。
13.The suborbital rocket successfully reached its peak altitude before returning to Earth.
这枚亚轨道火箭成功达到了其最高高度,然后返回地球。
14.The company is developing a new suborbital flight that will take tourists to the edge of space.
这家公司正在开发一种新的亚轨道飞行,将游客送到太空边缘。
作文
The term suborbital refers to a trajectory that does not reach the altitude necessary to achieve orbit around the Earth. While many people are familiar with orbital flights, which involve spacecraft that travel at high speeds and maintain a stable orbit due to the balance between gravitational pull and their forward momentum, suborbital flights represent a different category of space travel. Suborbital missions typically ascend to the edge of space, allowing passengers or payloads to experience a brief period of weightlessness before descending back to Earth. This type of flight has gained significant attention in recent years due to advancements in commercial space travel and the efforts of private companies like SpaceX, Blue Origin, and Virgin Galactic.The significance of suborbital flights extends beyond just tourism; they offer a unique platform for scientific research and technology testing. For instance, experiments conducted in a suborbital environment can help scientists understand the effects of microgravity on various biological and physical processes. These missions can also serve as a proving ground for new technologies that may be used in future orbital or deep space missions. The data collected during suborbital flights can provide valuable insights that contribute to our overall understanding of space and its effects on materials and living organisms.Moreover, suborbital flights are generally more accessible and less expensive than traditional orbital missions. This accessibility opens up opportunities for educational institutions, research organizations, and smaller companies to participate in space exploration. By lowering the cost barrier, suborbital missions democratize access to space, allowing a wider range of entities to conduct experiments and gather data that were previously only available to large government agencies or well-funded corporations.As the commercial space industry continues to grow, the potential applications of suborbital flights will likely expand. For example, they could be used for rapid global transportation, where passengers could travel from one point on Earth to another in a fraction of the time it takes using conventional aircraft. Additionally, the development of suborbital technology could pave the way for future advancements in space travel, including missions to Mars and beyond. In conclusion, the concept of suborbital travel represents a fascinating intersection of science, technology, and exploration. It offers a glimpse into the future of human spaceflight and the possibilities that lie ahead. As we continue to push the boundaries of what is possible in space, suborbital missions will play a crucial role in shaping our understanding of the universe and our place within it. The ongoing developments in this field promise exciting advancements that could revolutionize not only how we explore space but also how we connect with each other across our planet. The journey of suborbital exploration is just beginning, and its implications will be felt for generations to come.
“亚轨道”这个术语指的是一种轨迹,它没有达到绕地球运行所需的高度。虽然许多人熟悉轨道飞行,这种飞行涉及以高速旅行并因重力和前进动力之间的平衡而保持稳定轨道的航天器,但亚轨道飞行代表了另一种空间旅行类别。亚轨道任务通常上升到太空边缘,允许乘客或货物体验短暂的失重状态,然后再降回地球。这种类型的飞行近年来因商业航天的进步以及SpaceX、蓝色起源和维珍银河等私人公司的努力而备受关注。亚轨道飞行的意义不仅仅在于旅游;它们为科学研究和技术测试提供了独特的平台。例如,在亚轨道环境中进行的实验可以帮助科学家了解微重力对各种生物和物理过程的影响。这些任务还可以作为新技术的试验场,这些技术可能会在未来的轨道或深空任务中使用。在亚轨道飞行期间收集的数据可以提供宝贵的见解,促进我们对空间及其对材料和生物体影响的整体理解。此外,亚轨道飞行通常比传统的轨道任务更易于获得和成本更低。这种可获得性为教育机构、研究组织和较小公司参与太空探索提供了机会。通过降低成本门槛,亚轨道任务使得更广泛的实体能够进行实验和收集数据,而这些之前仅限于大型政府机构或资金充足的公司。随着商业航天产业的持续增长,亚轨道飞行的潜在应用可能会扩大。例如,它们可以用于快速全球运输,乘客可以在比传统飞机少得多的时间内从地球上的一个点旅行到另一个点。此外,亚轨道技术的发展可能为未来的太空旅行进步铺平道路,包括前往火星及更远的地方的任务。总之,亚轨道旅行的概念代表了科学、技术和探索的迷人交汇点。它为我们提供了人类太空飞行未来的瞥见和前方的可能性。随着我们继续推动在太空中可能的边界,亚轨道任务将在塑造我们对宇宙及我们在其中位置的理解方面发挥至关重要的作用。该领域的持续发展承诺带来令人兴奋的进步,这些进步可能会彻底改变我们探索太空的方式以及我们如何在地球上彼此联系。亚轨道探索的旅程才刚刚开始,其影响将持续影响几代人。