interorbital

简明释义

英[ˌɪntərˈɔr.bɪ.təl]美[ˌɪntərˈɔr.bɪ.təl]

[解剖] 眶间的

轨道间的

英英释义

单词用法

同义词

反义词

例句

1.The subgenus Quisquilius Jordan and Evermann, 1 903, with one pair of longitudinal rows of sensory papillae in front of interorbital region, papillae row b elongated, and predorsal scales present.

羽鰕虎亚属 （QuisquiliusJordanand Evermann，1 903） ，眼间区域前方为成对的纵列感觉乳突， 乳突列 b 长， 有背前 鳞。

2.The subgenus Priolepis, with one pair of sensory papillae in front of interorbital region, papillae row b short, and predorsal scales absent.

锯鳞鰕虎亚属 （Priolepis） ，眼间区域前方为一对感觉乳突， 乳突列b 短， 无背前鳞。

3.The subgenus Quisquilius Jordan and Evermann, 1 903, with one pair of longitudinal rows of sensory papillae in front of interorbital region, papillae row b elongated, and predorsal scales present.

羽鰕虎亚属 （QuisquiliusJordanand Evermann，1 903） ，眼间区域前方为成对的纵列感觉乳突， 乳突列 b 长， 有背前 鳞。

4.Researchers are studying the interorbital 眼球间的 nerves to better understand vision.

研究人员正在研究眼球间的神经，以更好地理解视觉。

5.The interorbital 眼球间的 space is crucial for certain types of surgery.

眼球间的空间对于某些类型的手术至关重要。

6.An interorbital 眼球间的 implant can help restore function after an accident.

一个眼球间的植入物可以帮助在事故后恢复功能。

7.The interorbital 眼球间的 region is often affected by trauma in head injuries.

眼球间的区域通常会受到头部受伤的影响。

8.In astronomy, the interorbital 轨道间的 distances between planets can affect their gravitational interactions.

在天文学中，行星之间的轨道间的距离可以影响它们的引力相互作用。

作文

The concept of interorbital space is often discussed in the context of astronomy and space exploration. When we think about the vastness of the universe, we often picture planets orbiting around stars, moons orbiting around planets, and various celestial bodies interacting with one another through gravitational forces. However, the area that exists between these orbits, known as interorbital space, is equally fascinating and significant. Understanding this space can provide insights into the dynamics of our solar system and beyond.In astronomy, the term interorbital refers to the region between two or more orbital paths. For example, consider the distance between Earth and its neighboring planet, Mars. The interorbital space between these two planets is not just empty; it is filled with various particles, radiation, and even the potential for spacecraft to travel. This area is crucial for missions that aim to explore other planets, as spacecraft must navigate through this interorbital space to reach their destinations.One of the most exciting aspects of interorbital space is the possibility of discovering new celestial phenomena. Scientists are constantly monitoring this region for signs of asteroids, comets, and other objects that may be on a collision course with Earth. By studying the interorbital space, researchers can better predict potential threats and develop strategies to mitigate them. For instance, if an asteroid is detected in the interorbital region, scientists can calculate its trajectory and determine whether it poses a risk to our planet.Moreover, the study of interorbital space also plays a vital role in understanding the formation and evolution of our solar system. By examining the characteristics of the interorbital regions around different celestial bodies, astronomers can gather data on how these bodies formed and evolved over time. This research can lead to a greater understanding of the processes that govern planetary formation and the interactions between celestial bodies.In addition to its scientific significance, the interorbital space has practical implications for future space missions. As humanity looks to establish a presence on other planets, understanding the interorbital regions will be essential for ensuring safe travel between celestial bodies. Space agencies such as NASA and ESA are investing heavily in technology that will allow spacecraft to efficiently navigate through these areas, reducing travel time and increasing the chances of successful missions.In conclusion, the term interorbital encompasses a critical aspect of our understanding of space and celestial mechanics. Whether it is for the purpose of exploration, threat detection, or scientific research, the interorbital space holds countless opportunities for discovery and innovation. As we continue to push the boundaries of space exploration, a deeper understanding of interorbital dynamics will undoubtedly enhance our knowledge of the universe and our place within it.

“interorbital”空间的概念通常在天文学和太空探索的背景下进行讨论。当我们想到宇宙的浩瀚时，我们常常想象行星围绕恒星轨道旋转，月球围绕行星旋转，以及各种天体通过引力相互作用。然而，存在于这些轨道之间的区域，即所谓的interorbital空间，同样迷人且重要。理解这个空间可以为我们提供有关太阳系及其以外的动态的见解。在天文学中，interorbital一词指的是两个或多个轨道路径之间的区域。例如，考虑地球与其邻近行星火星之间的距离。这两个行星之间的interorbital空间并不是空的；它充满了各种粒子、辐射，甚至潜在的航天器旅行。这一区域对于旨在探索其他行星的任务至关重要，因为航天器必须穿越这个interorbital空间才能到达目的地。interorbital空间的一个令人兴奋的方面是发现新天体现象的可能性。科学家们不断监测这一地区，以寻找可能与地球发生碰撞的小行星、彗星和其他物体的迹象。通过研究interorbital空间，研究人员可以更好地预测潜在威胁，并制定减轻这些威胁的策略。例如，如果在interorbital区域检测到小行星，科学家可以计算其轨迹，并确定它是否对我们的星球构成风险。此外，研究interorbital空间在理解我们太阳系的形成和演化方面也发挥着至关重要的作用。通过检查不同天体周围的interorbital区域的特征，天文学家可以收集有关这些天体如何形成和随时间演变的数据。这项研究可以导致我们更深入地了解行星形成的过程以及天体之间的相互作用。除了科学意义外，interorbital空间对未来的太空任务也具有实际意义。随着人类寻求在其他行星上建立存在，理解interorbital区域对于确保在天体之间安全旅行至关重要。美国宇航局和欧洲航天局等航天机构正在大量投资于能够让航天器有效穿越这些区域的技术，从而减少旅行时间并增加成功任务的机会。总之，interorbital一词涵盖了我们对空间和天体力学理解的一个关键方面。无论是出于探索、威胁检测还是科学研究的目的，interorbital空间都蕴藏着无数发现和创新的机会。随着我们继续推动太空探索的边界，对interorbital动态的更深入理解无疑将增强我们对宇宙及其在其中的位置的认识。