corotating

简明释义

英[ˌkɔːrəʊˈteɪtɪŋ]美[ˌkoʊrəˈteɪtɪŋ]

v. 共转；作同速旋转（corotate 的 ing 形式）

英英释义

单词用法

同义词

反义词

例句

1.The effects of screw speed, salt (0 ~ 3%) and sugar (0 ~ 8%) contents on the extrusion of rice flour using a corotating, fully intermeshing twin-screw extruder were studied.

研究了在使用旋转型全隔行式双螺杆挤压机时，螺杆速度、盐(0 ~ 3%)和糖(0 ~ 8%)对米粉挤压的影响。

2.The effects of screw speed, salt (0 ~ 3%) and sugar (0 ~ 8%) contents on the extrusion of rice flour using a corotating, fully intermeshing twin-screw extruder were studied.

研究了在使用旋转型全隔行式双螺杆挤压机时，螺杆速度、盐(0 ~ 3%)和糖(0 ~ 8%)对米粉挤压的影响。

3.In this article, taking the close-intermeshing corotating bon-screw as an example, we analyze its intermeshing mechanisms by using AME.

本文以紧密啮合同向平行双螺杆为实例对其啮合机理和三维实体造型原理进行了阐述。

4.The functions of the calculation software for a corotating twin screw geometry design are introduced by means of showing a calculation example.

通过算例介绍了同向双螺杆几何设计计算软件的功能。

5.The evolutions of corotating variation of some basic heliospheric parameters and energy parameters are studied in this paper for the solar cycle 20.

本文统计分析了日球基本参数及能量参数的共转变化在第20太阳周中不同位相的演变。

6.Engineers studied the corotating 共转的 gears to improve the efficiency of the machine.

工程师们研究了共转的齿轮，以提高机器的效率。

7.In astrophysics, corotating 共转的 systems can provide insights into the dynamics of galaxies.

在天体物理学中，共转的系统可以提供关于星系动态的见解。

8.The corotating 共转的 disks in the experiment helped to maintain a steady flow of particles.

实验中共转的盘片有助于保持粒子的稳定流动。

9.The two satellites are designed to be corotating 共转的 around the Earth, allowing for synchronized data collection.

这两颗卫星被设计为围绕地球共转的，以便同步收集数据。

10.The corotating 共转的 planets in the binary star system exhibit unique gravitational interactions.

双星系统中的共转的行星表现出独特的引力相互作用。

作文

In the realm of astrophysics, the concept of corotating plays a crucial role in understanding the dynamics of celestial bodies. When we refer to two or more objects as corotating, we mean that they are rotating together around a common center of mass at the same angular velocity. This phenomenon is particularly evident in systems such as binary stars, planets with moons, and even galaxies. The study of corotating systems helps scientists to comprehend gravitational interactions and the stability of orbits within these systems.For instance, consider the Earth and its moon. They are not only bound by gravity but also exhibit a corotating relationship. The moon takes approximately 27.3 days to orbit the Earth, and during this time, it rotates on its axis exactly once. This synchronous rotation means that the same side of the moon always faces the Earth. This corotating behavior is a result of tidal forces over millions of years, which have led to the moon's current state of synchronous rotation.Moreover, the concept of corotating is essential when studying planetary rings. For example, Saturn's rings consist of countless particles that are corotating with the planet. These particles, ranging from tiny ice grains to larger boulders, all share the same orbital path around Saturn, contributing to the stunning visual display we observe from Earth. The gravitational pull of Saturn keeps these particles in their designated orbits, creating a beautiful and dynamic system.In the context of galaxies, corotating refers to the rotation of stars and gas clouds around the galactic center. Most spiral galaxies, including our Milky Way, exhibit a corotating structure where stars in the arms of the galaxy rotate in unison with the overall motion of the galaxy. This rotation can be observed through the Doppler effect, where the light from stars moving towards us appears blue-shifted, while stars moving away appear red-shifted. Understanding the corotating nature of galaxies allows astronomers to infer the distribution of dark matter and the overall mass of the galaxy.The implications of corotating systems extend beyond astronomy. In engineering, for example, the design of gears and mechanical systems often relies on the principles of corotating components to ensure efficiency and functionality. When gears are designed to corotate, they work together seamlessly, transferring energy and motion without unnecessary friction or wear.In conclusion, the term corotating encapsulates a fundamental concept in both astrophysics and engineering. It describes the synchronized rotation of objects around a common center, whether it be celestial bodies in space or mechanical parts in machinery. By studying corotating systems, we gain deeper insights into the forces that govern our universe and improve the technologies we rely on in our daily lives. As we continue to explore the cosmos, the importance of corotating phenomena will undoubtedly remain a significant area of research and discovery.

在天体物理学领域，corotating（共转）这一概念在理解天体的动态中起着至关重要的作用。当我们提到两个或多个物体是corotating时，我们的意思是它们以相同的角速度围绕一个共同的质心旋转。这一现象在双星、行星与卫星甚至星系等系统中尤为明显。对corotating系统的研究帮助科学家理解引力相互作用以及这些系统内轨道的稳定性。例如，考虑地球及其月球。它们不仅受到引力的束缚，还表现出一种corotating关系。月球大约需要27.3天绕地球一周，而在这段时间内，它的自转正好一次。这种同步旋转意味着月球的同一侧始终朝向地球。这种corotating行为是由于潮汐力在数百万年中的作用，导致月球当前的同步旋转状态。此外，corotating的概念在研究行星环时也至关重要。例如，土星的环由无数粒子组成，这些粒子与土星corotating。这些粒子从微小的冰粒到较大的岩石，均共享围绕土星的相同轨道，为我们从地球上观察到的壮观视觉效果做出了贡献。土星的引力将这些粒子保持在它们指定的轨道上，创造了一个美丽而动态的系统。在星系的背景下，corotating指的是恒星和气体云围绕银河中心的旋转。大多数螺旋星系，包括我们的银河系，都呈现出一种corotating结构，星系臂中的恒星与整个星系的运动同步旋转。通过多普勒效应可以观察到这种旋转，向我们移动的恒星的光看起来是蓝移的，而远离我们的恒星则显得红移。理解星系的corotating特性使天文学家能够推断暗物质的分布和星系的整体质量。corotating系统的影响超越了天文学。在工程学中，例如，齿轮和机械系统的设计常常依赖于corotating组件的原理，以确保效率和功能。当齿轮被设计为corotating时，它们能够无缝协作，传递能量和运动，而不会产生不必要的摩擦或磨损。总之，corotating这一术语概括了天体物理学和工程学中的一个基本概念。它描述了围绕共同中心同步旋转的物体，无论是在太空中的天体还是机械装置中的零部件。通过研究corotating系统，我们深入了解支配宇宙的力量，并改善我们日常生活中所依赖的技术。随着我们继续探索宇宙，corotating现象的重要性无疑将仍然是一个重要的研究和发现领域。