lander
简明释义
n. 着陆器;出铁槽;把钩工人
n. (Lander)人名;(丹)兰诺;(德、俄、西、捷、瑞典)兰德尔;(英)兰德
英英释义
单词用法
登月飞行器 |
同义词
反义词
| 上升者 | 上升者首先到达了山顶。 | ||
| 飞行者 | 飞行者在云层之上翱翔。 |
例句
1.The Cassini spacecraft brought a disk of signatures into orbit around Saturn.The Phoenix Mars Lander took DVD to Mars' north pole.
卡西尼号将一张储存有签名的DVD带到了土星轨道上,凤凰号火星探测器将一张DVD带到了火星的北极。
2.Nasa lost contact with the Phoenix lander on 2 November last year, after it had sent back 25, 000 images from the planet.
去年11月2日,NASA与凤凰登陆车失去联系,在此之前,凤凰曾经传回25000张火星图片。
3.Spacecraft Technician Billy Jones inspects the Phoenix Mars Lander robotic arm in 2006.
2006年,航天技术员比利·琼斯在检查“凤凰号”火星探测器的机械臂。
4.We could send a lander to drop a drilling probe through the kilometers-thick ice or attempt to find a huge fissure to access the sub-surface ocean.
我们可以发射一个着陆器,向该星球投放一个有钻头的探测器,钻通其几公里厚的冰面;或者尝试去寻找一个巨大的裂缝进入地下海洋。
5.The new space vehicle design USES shuttle rocket parts, an Apollo-style capsule and a lander capable of carrying four people to the moon.
新一代航天工具的设计采用了运载火箭部件、和“阿波罗”号类似的太空舱和一个能够搭载四名探月宇航员的登陆舱。
6.To calculate the Lander module's position, the Controller USES the time taken for radar pulses to return. Figure 1 illustrates the simulation.
为了计算出lander登月舱的位置,Controller利用为雷达脉冲获取的时间返回这个位置。
7.The lunar-lander simulators for the Apollo missions looked like flying bed frames, Melroy says, and all of them crashed during training.
“阿波罗”任务中的月球登陆模拟器看起来像个飞行床架,梅尔罗伊说到,在训练中就被撞毁。
8.By 2020, Orion will be paired with the lunar lander Altair.
2020年,“猎户座”会和“牛郎星”月球着陆装置协同工作。
9.For a game of extraterrestrial Where's Waldo?, try spotting the lander in the full Apollo 11 image returned by the LRO.
在一场有关外太空的游戏:“寻找沃尔多”中,你可以试着在11张由月球侦察卫星发回的所有关于阿波罗11号的图片上寻找着落器。
10.NASA's latest lander mission aims to search for signs of past life on Mars.
美国宇航局最新的着陆器任务旨在寻找火星上过去生命的迹象。
11.The lander deployed its solar panels to gather energy for its instruments.
着陆器展开了太阳能电池板,为其仪器收集能量。
12.Engineers are analyzing data from the Mars lander to understand the planet's geology.
工程师们正在分析火星着陆器的数据,以了解该行星的地质情况。
13.The robotic lander is equipped with cameras to take high-resolution images of the surface.
这台机器人着陆器配备了摄像头,可以拍摄高分辨率的地表图像。
14.The spacecraft's lander successfully touched down on the moon.
航天器的着陆器成功降落在月球上。
作文
In the realm of space exploration, the term lander refers to a type of spacecraft designed specifically to land on the surface of a celestial body. These vehicles are crucial for conducting scientific research and exploration beyond our planet. For instance, NASA's Apollo Lunar Module was a famous lander that successfully transported astronauts to the Moon's surface in the late 1960s and early 1970s. The design and engineering of a lander involve numerous challenges, including ensuring a safe descent, landing stability, and the ability to operate in harsh environments.The primary function of a lander is to deliver instruments and, in some missions, humans to the surface of planets or moons. This involves intricate calculations and technology to manage the landing sequence. For example, the Mars Science Laboratory mission included the Curiosity rover, which was delivered to Mars by a sophisticated lander known as the 'Sky Crane.' This innovative system allowed for a precise landing, showcasing the advancements in aerospace engineering.Moreover, landers often carry scientific payloads that can analyze soil samples, measure atmospheric conditions, or even search for signs of past life. The data collected by these landers provides invaluable insights into the geology and climate of other worlds. For example, the InSight lander on Mars has been studying seismic activity and the planet's internal structure, contributing to our understanding of planetary formation and evolution.Another notable example is the European Space Agency's (ESA) Huygens lander, which descended to the surface of Titan, Saturn's largest moon, in 2005. This mission revealed a world with rivers and lakes of liquid methane, expanding our knowledge of the diversity of celestial bodies in our solar system.The development of landers is not only limited to government space agencies; private companies are also making strides in this area. Companies like SpaceX and Blue Origin are exploring the potential for reusable landers that could significantly reduce the cost of space travel and exploration. The concept of reusability is transforming how we approach space missions, making it more sustainable and accessible.In conclusion, landers play an essential role in our quest to explore and understand the universe. They serve as the bridge between our spacecraft and the surfaces of distant worlds, providing critical data that informs our scientific knowledge and inspires future generations. As technology continues to advance, the design and capabilities of landers will undoubtedly evolve, leading to even more groundbreaking discoveries in the years to come.
在太空探索领域,术语lander指的是一种专门设计用于在天体表面着陆的航天器。这些飞行器对于在我们的星球之外进行科学研究和探索至关重要。例如,NASA的阿波罗登月舱是一个著名的lander,它在20世纪60年代末和70年代初成功地将宇航员运输到月球表面。lander的设计和工程涉及许多挑战,包括确保安全下降、着陆稳定性以及在恶劣环境中操作的能力。lander的主要功能是将仪器以及在某些任务中,将人类送到行星或卫星的表面。这涉及复杂的计算和技术,以管理着陆序列。例如,火星科学实验室任务包括好奇号探测器,它通过一种名为“天空吊车”的复杂lander送往火星。这个创新系统实现了精确着陆,展示了航空航天工程的进步。此外,landers通常携带科学有效载荷,可以分析土壤样本、测量大气条件,甚至寻找过去生命的迹象。这些landers收集的数据为我们提供了对其他世界的地质和气候的宝贵见解。例如,火星上的洞察lander一直在研究地震活动和行星内部结构,为我们理解行星的形成和演化做出了贡献。另一个显著的例子是欧洲航天局(ESA)的惠更斯lander,它于2005年降落在土星最大卫星泰坦的表面。该任务揭示了一个拥有液态甲烷河流和湖泊的世界,扩展了我们对太阳系中天体多样性的知识。landers的发展不仅限于政府航天机构;私人公司也在这一领域取得了进展。像SpaceX和蓝色起源这样的公司正在探索可重复使用的landers的潜力,这可能大大降低太空旅行和探索的成本。可重复使用的概念正在改变我们对太空任务的看法,使其更加可持续和可接近。总之,landers在我们探索和理解宇宙的追求中发挥着至关重要的作用。它们充当了我们的航天器与遥远世界表面之间的桥梁,提供了关键数据,这些数据不仅丰富了我们的科学知识,还激励了未来几代人的探索热情。随着技术的不断进步,landers的设计和能力无疑会不断演变,未来几年将带来更多突破性的发现。
