stable orbit

简明释义

稳定轨道

英英释义

例句

1.The engineers designed the spacecraft to achieve a stable orbit 稳定轨道 with minimal fuel consumption.

工程师设计了航天器，使其以最小的燃料消耗达到稳定轨道 stable orbit。

2.Scientists are studying how to maintain a stable orbit 稳定轨道 for future space missions.

科学家正在研究如何保持未来太空任务的稳定轨道 stable orbit。

3.A stable orbit 稳定轨道 is crucial for the long-term operation of satellites.

对于卫星的长期运行，稳定轨道 stable orbit是至关重要的。

4.The satellite was placed into a stable orbit 稳定轨道 around the Earth to ensure continuous communication.

卫星被放置在地球的稳定轨道 stable orbit中，以确保持续的通信。

5.The probe achieved a stable orbit 稳定轨道 around Mars after several adjustments.

探测器在经过几次调整后，成功进入火星的稳定轨道 stable orbit。

作文

In the vastness of space, celestial bodies move in intricate patterns, often bound by the forces of gravity. One of the most fascinating concepts in astrophysics is that of a stable orbit, which refers to the path an object takes around another object in space where it maintains a consistent distance and speed. This phenomenon can be observed in various contexts, from planets orbiting stars to satellites circling the Earth. Understanding the mechanics behind a stable orbit not only helps us grasp the dynamics of our solar system but also plays a crucial role in space exploration and satellite technology.A stable orbit occurs when the gravitational pull of a larger body, such as a planet or star, perfectly balances the inertia of a smaller body, like a moon or satellite. This balance allows the smaller body to move in a circular or elliptical path without spiraling into the larger body or drifting away into space. For instance, the Earth and the Moon maintain a stable orbit due to their gravitational interaction, which has been in place for billions of years. The Moon's stable orbit around Earth ensures that it remains at a relatively constant distance, providing a predictable cycle of lunar phases that have influenced human culture and natural phenomena on Earth.Moreover, artificial satellites are designed to achieve and maintain a stable orbit around our planet. Engineers meticulously calculate the necessary velocity and altitude needed for a satellite to enter a stable orbit. If a satellite is placed too low, it will encounter atmospheric drag and eventually fall back to Earth; if it's too high, it may not have enough gravitational pull to stay in orbit. Therefore, achieving a stable orbit is essential for the functionality of satellites used for communication, weather monitoring, and global positioning systems.The concept of a stable orbit extends beyond mere physics; it serves as a metaphor for stability in various aspects of life. Just as celestial bodies rely on gravitational forces to maintain their paths, individuals and organizations require certain structures and support systems to remain balanced and productive. For example, a business operating in a stable orbit might have established routines, clear goals, and effective communication channels that allow it to thrive amidst external challenges. Conversely, a lack of stability can lead to chaos and uncertainty, much like a satellite that fails to achieve a stable orbit and falls out of its intended path.In conclusion, the idea of a stable orbit encompasses both physical and metaphorical meanings. In the realm of astrophysics, it describes the harmonious relationship between gravitational forces and inertia, enabling celestial bodies to maintain their paths through space. In a broader context, it illustrates the importance of stability in our lives, highlighting how balance and structure can lead to success and sustainability. As we continue to explore the universe and navigate our own journeys, understanding the significance of a stable orbit can inspire us to seek equilibrium in all that we do.

在广袤的太空中，天体以复杂的模式运动，通常受到引力的作用。天体物理学中一个最迷人的概念是稳定轨道，它指的是一个物体围绕另一个物体在太空中运动的路径，在该路径上，它保持着一致的距离和速度。这种现象可以在各种背景下观察到，从行星围绕恒星运动到卫星环绕地球运行。理解稳定轨道背后的机制不仅有助于我们掌握太阳系的动态，而且在太空探索和卫星技术中也发挥着重要作用。稳定轨道的形成发生在较大物体（如行星或恒星）的引力与较小物体（如月球或卫星）的惯性完美平衡时。这种平衡使得较小的物体能够在不向较大物体螺旋下降或漂移到太空中的情况下，以圆形或椭圆形路径运动。例如，地球和月球由于其引力相互作用而维持着稳定轨道，这种状态已经持续了数十亿年。月球围绕地球的稳定轨道确保它保持在相对恒定的距离，提供了可预测的月相周期，这影响了人类文化和地球上的自然现象。此外，人造卫星被设计成能够达到并维持在我们星球的稳定轨道。工程师们仔细计算卫星进入稳定轨道所需的速度和高度。如果卫星放置得过低，它将遭遇大气阻力并最终坠回地球；如果放置得过高，它可能没有足够的引力保持在轨道上。因此，实现稳定轨道对用于通信、天气监测和全球定位系统的卫星的功能至关重要。稳定轨道的概念不仅限于物理学，它还作为生活各个方面稳定性的隐喻。正如天体依赖引力来维持其路径，个人和组织也需要某些结构和支持系统来保持平衡和高效。例如，一个在稳定轨道上运营的企业可能会建立常规、明确的目标和有效的沟通渠道，使其能够在外部挑战中蓬勃发展。相反，缺乏稳定性可能导致混乱和不确定，就像未能实现稳定轨道的卫星偏离了预定轨道。总之，稳定轨道的概念涵盖了物理和隐喻的双重含义。在天体物理学领域，它描述了引力和惯性之间的和谐关系，使天体能够在太空中维持其路径。在更广泛的背景下，它说明了我们生活中稳定性的重要性，强调了平衡和结构如何导致成功和可持续性。随着我们继续探索宇宙并导航自己的旅程，理解稳定轨道的意义可以激励我们在所做的一切中寻求平衡。