gyratory

gyratory的音标是[ˈdʒɪreɪtərɪəɪ]，意思是“旋转的；旋转的轮；旋转窑”。

基本翻译：旋转的；旋转的轮；旋转窑。

速记技巧：gyr(旋转)+ atory(…的) = gyratory。

gyratory这个词的词源可以追溯到拉丁语中的“gyrus”和“rotare”，意为旋转或绕中心旋转。它的变化形式包括其过去分词形式“gyrated”和现在分词形式“gyrating”。

相关单词：

gyroscope（陀螺仪）：一种用于测量角速度或方向的仪器，得名于gyratory（旋转的）这个词源。

gyration（旋转）：指物体围绕自身轴心旋转的动作。

gyral（陀螺仪相关的）：与陀螺仪相关的术语或概念。

gyraldine（陀螺仪的发明者）：陀螺仪的发明者通常与爱迪生相关。

gyroscopic（陀螺的）：描述物体像陀螺一样旋转的属性或状态。

以上这些单词都与gyratory这个词源相关，它们在科学、工程和物理学领域都有重要的应用。gyratory这个词源也反映了物理学和工程学的发展历史，以及人们对精确测量和控制的需求。

常用短语：

1. gyroscope rotation 陀螺仪旋转

2. gyroscope stabilization 陀螺仪稳定

3. gyroscopic effect 陀螺效应

4. gyroscopic steering 陀螺仪转向

5. gyroscopic balance 陀螺仪平衡

6. gyroscopic platform 陀螺仪平台

7. gyroscope measurement 陀螺仪测量

例句：

1. The gyroscope on the spacecraft is used to maintain stability during the long-term spaceflight.

2. The gyroscopic steering system ensures precise control of the car on the bumpy roads.

3. The gyroscope balance ensures that the watch keeps accurate time even when the wrist is rotated.

4. The gyroscopic platform is used in precision instruments to reduce vibrations and maintain stability.

5. The gyroscope measurement is used to measure the speed and direction of rotation accurately.

6. The gyroscopic effect is a phenomenon that occurs when a spinning object is tilted, causing it to resist the change in direction.

7. The use of a gyroscope in a spacecraft can help maintain stability and reduce the effects of space debris on the craft.

英文小作文：

Gyroscope: The Ultimate Stability Tool

Gyroscopes are devices that measure rotation and provide stability in various applications. Whether it"s a spacecraft in orbit or a car on bumpy roads, gyroscopes play a crucial role in ensuring precise control and stability.

From space exploration to automotive engineering, gyroscopes have revolutionized various fields by providing a reliable and accurate way to measure rotation and maintain stability. From maintaining the stability of spacecraft in zero-gravity environments to ensuring precise steering in automobiles, gyroscopes have become an essential tool for many industries.

In addition to their use in engineering applications, gyroscopes are also used in medical devices such as artificial limbs and exoskeletons to provide stability and balance to patients. They are also used in navigation systems to provide precise positioning and directional information, ensuring safe navigation in challenging environments.

Overall, gyroscopes have become an indispensable tool in various fields, providing stability, precision, and accuracy in various applications. As technology continues to advance, we can expect to see more innovative uses of gyroscopes in various fields, from space exploration to healthcare technology.