control moment

简明释义

控制力矩

英英释义

例句

1.The pilot had to manage the control moment 控制力矩 to keep the aircraft level during turbulence.

飞行员必须管理控制力矩 control moment 以保持飞机在颠簸期间水平飞行。

2.The spacecraft used its thrusters to generate a control moment 控制力矩 to stabilize its orientation in space.

宇宙飞船利用其推进器产生了一个控制力矩 control moment 来稳定其在太空中的方向。

3.A sudden change in wind direction required the crew to quickly adjust the control moment 控制力矩 of the sailboat.

风向的突然变化要求船员迅速调整帆船的控制力矩 control moment 。

4.Engineers designed the system to adjust the control moment 控制力矩 during flight for better maneuverability.

工程师们设计了这个系统，以便在飞行过程中调整控制力矩 control moment 以获得更好的机动性。

5.In robotics, a control moment 控制力矩 can be applied to ensure precise movements of the robotic arm.

在机器人技术中，可以施加控制力矩 control moment 以确保机器人手臂的精确运动。

作文

In the realm of engineering and physics, the term control moment refers to the torque applied to a system that influences its motion or orientation. Understanding this concept is crucial in various applications, from aerospace to robotics. For instance, when a spacecraft maneuvers in orbit, it relies on thrusters to create a control moment that adjusts its position and trajectory. This adjustment is essential for maintaining the intended path and ensuring successful missions. Similarly, in robotics, a robot arm must generate specific control moments to perform precise movements, such as lifting or rotating objects. The ability to calculate and apply these moments accurately can determine the success of tasks in both fields.The importance of control moments extends beyond theoretical applications; it has real-world implications as well. For example, consider the case of a satellite that needs to maintain its orientation in space. Engineers must design systems that can produce adequate control moments to counteract any disturbances, such as gravitational forces from nearby celestial bodies or solar radiation pressure. Without effective control moments, the satellite could drift off course, leading to potential mission failure.Moreover, the concept of control moment is not limited to mechanical systems. It can also be applied to various fields, such as economics and psychology. In economics, the idea of control moment can be likened to market forces that dictate supply and demand. Just as a physical system requires a control moment to stabilize, an economy needs regulatory measures to prevent fluctuations that could lead to instability.In psychology, the control moment can represent the pivotal points in decision-making processes where an individual must weigh their options and choose a direction. These moments can significantly influence a person's behavior and future choices. Understanding when and how to exert control in these situations can lead to more favorable outcomes.To further illustrate the significance of control moments, let’s examine a practical scenario in sports. Athletes often experience critical moments during competitions that require them to exert mental and physical control. For instance, a gymnast performing on the balance beam must execute a series of moves with precision, where each control moment can determine their performance score. The ability to harness focus and composure during these moments can lead to triumph or failure, highlighting the importance of psychological control moments in achieving success.In conclusion, the concept of control moment is multifaceted and plays a vital role across various disciplines. Whether in engineering, economics, psychology, or sports, understanding how to identify and manipulate control moments can lead to improved outcomes and greater success. By recognizing the impact of these moments, individuals and organizations can better navigate challenges and achieve their goals effectively.

在工程和物理学领域，术语控制时刻指的是施加于系统的扭矩，该扭矩影响其运动或方向。理解这一概念在航空航天到机器人等各种应用中至关重要。例如，当航天器在轨道上机动时，它依赖于推进器产生控制时刻来调整其位置和轨迹。这种调整对于维持预定路径和确保成功的任务至关重要。同样，在机器人技术中，机器人手臂必须产生特定的控制时刻以执行精确的动作，例如举起或旋转物体。准确计算和应用这些时刻的能力可以决定这两个领域任务的成功。控制时刻的重要性不仅限于理论应用；它也具有现实世界的影响。例如，考虑一个需要在太空中保持其方向的卫星。工程师必须设计能够产生足够控制时刻的系统，以抵消任何干扰，例如来自附近天体的引力或太阳辐射压力。如果没有有效的控制时刻，卫星可能会偏离轨道，从而导致潜在的任务失败。此外，控制时刻的概念不仅限于机械系统。它还可以应用于经济学和心理学等各个领域。在经济学中，控制时刻的思想可以类比于决定供求的市场力量。就像物理系统需要控制时刻来稳定一样，经济也需要监管措施来防止可能导致不稳定的波动。在心理学中，控制时刻可以代表决策过程中的关键点，个人必须权衡选择并选择方向。这些时刻可以显著影响一个人的行为和未来选择。理解何时以及如何在这些情况下施加控制可以导致更有利的结果。为了进一步说明控制时刻的重要性，让我们考察一下体育中的实际场景。运动员在比赛中常常会经历关键时刻，需要他们施加心理和身体上的控制。例如，一名在平衡木上表演的体操运动员必须精确地执行一系列动作，每个控制时刻都能决定他们的表演得分。在这些时刻能够掌握注意力和冷静可以导致胜利或失败，突显了心理控制时刻在取得成功中的重要性。总之，控制时刻的概念是多方面的，并在各个学科中发挥着重要作用。无论是在工程、经济学、心理学还是体育中，理解如何识别和操控控制时刻都可以带来更好的结果和更大的成功。通过认识到这些时刻的影响，个人和组织可以更好地应对挑战，有效实现目标。