pendulous gyroscope

简明释义

摆式陀螺仪

英英释义

例句

1.The engineer explained how the pendulous gyroscope 摆动陀螺仪 helps stabilize the aircraft during turbulence.

工程师解释了如何使用摆动陀螺仪pendulous gyroscope在颠簸中稳定飞机。

2.The pendulous gyroscope 摆动陀螺仪 is essential for navigation in spacecraft.

在航天器中，摆动陀螺仪pendulous gyroscope是导航的关键。

3.During the experiment, the pendulous gyroscope 摆动陀螺仪 maintained its orientation despite external forces.

在实验中，摆动陀螺仪pendulous gyroscope尽管受到外力影响，仍保持其方向。

4.The pendulous gyroscope 摆动陀螺仪 can be used to measure angular velocity accurately.

摆动陀螺仪pendulous gyroscope可以用来精确测量角速度。

5.In our physics class, we demonstrated the principles of motion using a pendulous gyroscope 摆动陀螺仪.

在我们的物理课上，我们使用摆动陀螺仪pendulous gyroscope演示了运动的原理。

作文

The concept of a pendulous gyroscope is fascinating and plays a crucial role in various fields, including navigation, aerospace, and even consumer electronics. A pendulous gyroscope is a device that utilizes the principles of angular momentum to maintain orientation. It consists of a spinning wheel or rotor that is mounted in such a way that it can pivot freely in one or more directions. This unique design allows it to resist changes in its orientation, thus providing stability and balance. One of the most common applications of a pendulous gyroscope is found in aircraft instrumentation. Pilots rely on gyroscopic instruments to understand their aircraft's orientation relative to the Earth. For instance, the attitude indicator, which shows whether an airplane is climbing, descending, or level, employs a pendulous gyroscope to provide accurate readings. This is essential for safe flying, especially in low visibility conditions where visual references are limited.In addition to aviation, pendulous gyroscopes are also used in ships and submarines. These vessels use gyroscopic technology to enhance navigation systems and stabilize against the rolling motion of the sea. By maintaining a steady reference point, a pendulous gyroscope helps ensure that the ship stays on course, even in rough waters. The ability to maintain orientation is not only beneficial for navigation but also for the safety of the crew and passengers.Moreover, the principles behind a pendulous gyroscope have been adapted in modern technology, particularly in smartphones and gaming devices. Many smartphones now include miniature gyroscopes that help with screen orientation and motion sensing. When you tilt your phone to take a picture or play a game, the pendulous gyroscope within detects that motion and adjusts the display accordingly. This integration of gyroscopic technology has enhanced user experience and opened up new possibilities in mobile applications.The science behind a pendulous gyroscope is rooted in physics. As the rotor spins, it creates angular momentum, which is a measure of the quantity of rotation of an object. According to the laws of physics, an object in motion will remain in motion unless acted upon by an external force. This principle allows the pendulous gyroscope to maintain its orientation, making it an invaluable tool in various applications. In conclusion, the pendulous gyroscope is more than just a simple mechanical device; it is a cornerstone of modern technology that enhances our ability to navigate and interact with the world around us. From aviation to smartphones, the applications of a pendulous gyroscope demonstrate its importance in ensuring stability and accuracy. Understanding how this device works not only enriches our knowledge of physics but also highlights the ingenuity behind many technological advancements we often take for granted. As technology continues to evolve, the pendulous gyroscope will undoubtedly remain a key player in shaping the future of navigation and orientation systems.

“悬挂陀螺仪”的概念令人着迷，并在包括导航、航空航天甚至消费电子等多个领域发挥着至关重要的作用。“悬挂陀螺仪”是一种利用角动量原理来维持方向的装置。它由一个旋转的轮子或转子组成，该转子以一种可以在一个或多个方向上自由摆动的方式安装。这种独特的设计使其能够抵抗方向的变化，从而提供稳定性和平衡性。“悬挂陀螺仪”最常见的应用之一是在飞机仪器中。飞行员依靠陀螺仪仪器来了解他们的飞机相对于地球的方向。例如，姿态指示器显示飞机是爬升、下降还是平飞，使用“悬挂陀螺仪”来提供准确的读数。这对于安全飞行至关重要，尤其是在能见度低的情况下，视觉参考有限。除了航空，“悬挂陀螺仪”还用于船舶和潜艇。这些船只使用陀螺仪技术来增强导航系统，并在海洋的摇摆运动中保持稳定。通过保持一个稳定的参考点，“悬挂陀螺仪”有助于确保船只即使在波涛汹涌的水域中也能保持航向。维持方向的能力不仅对导航有益，而且对船员和乘客的安全至关重要。此外，“悬挂陀螺仪”的原理已经被现代技术所采用，特别是在智能手机和游戏设备中。如今，许多智能手机都配备了微型陀螺仪，帮助屏幕方向和运动传感。当你倾斜手机拍照或玩游戏时，内部的“悬挂陀螺仪”检测到这种运动并相应地调整显示。这种陀螺仪技术的整合增强了用户体验，并为移动应用开辟了新的可能性。“悬挂陀螺仪”背后的科学基础扎根于物理学。当转子旋转时，它会产生角动量，这是物体旋转数量的度量。根据物理定律，运动中的物体将保持运动状态，除非受到外力的作用。这个原理使得“悬挂陀螺仪”能够维持其方向，使其成为各种应用中不可或缺的工具。总之，“悬挂陀螺仪”不仅仅是一个简单的机械装置；它是现代技术的基石，增强了我们导航和与周围世界互动的能力。从航空到智能手机，“悬挂陀螺仪”的应用展示了其在确保稳定性和准确性方面的重要性。理解这个装置的工作原理不仅丰富了我们对物理学的知识，也突显了我们常常视而不见的许多技术进步背后的聪明才智。随着技术的不断发展，“悬挂陀螺仪”无疑将继续在塑造导航和方向系统的未来中扮演关键角色。