rotatory
简明释义
adj. 旋转的;使回转的;轮流的;引起旋转的
英英释义
与旋转有关或导致旋转的;旋转的。 | |
具有旋转特征或能力的。 |
单词用法
旋转运动 | |
旋转机制 | |
旋转发动机 | |
旋转阶段 |
同义词
| 旋转的 | 旋转运动 | ||
| 旋转的;循环的 | 旋转门 | ||
| 圆形的;循环的 | 循环论证 |
反义词
例句
1.The rotatory intermittent drive transfer mechanism drives the second indicator member intermittently upon motion of the first indicator member.
该旋转式间歇传动机构则响应第一指示构件的运动来间歇驱动第二指示构件。
2.Methods The rotatory-basket method was used and was determined by UV.
方法采用转篮法和紫外分光光度进行测定。
3.Conclusions : Lateral curvature should be associated with the rotatory and the excessive lateral curvature should be avoided when operating the manipulations of neck.
结论:侧弯(旋转)伴有一定程度的旋转(侧弯),行颈部推拿术治疗时应避免过度侧弯。
4.Objective to study the trait of intra-stress distribution of lumbar unit during the hang upside down and rotatory manipulation.
目的了解进行倒悬旋转手法时腰椎各结构的应力分布和变化的特点。
5.Objective to discuss appropriate strategy about treatment of rotatory fixation or dislocation of atlantoaxial articulation in children.
目的探讨小儿寰枢关节旋转固定或脱位的治疗方法。
6.In this paper we discuss the rotatory power by means of the matrix, this method reveals nature of the rotatory power and it is not difficult for a reader to understand.
本文用矩阵方法讨论旋光本领,这种方法揭示了旋光本领的本质,因而读者容易理解。
7.In this paper, designs and form selections on flat spherical shell, rotatory shell, curved surface shell and pyramidal shell are introduced.
本文介绍了球扁壳、回转壳、双曲壳及金字塔型网壳结构的设计和选型。
8.The rotatory 旋转的 engine design allows for smoother operation at higher speeds.
这种旋转的发动机设计在更高速度下允许更平稳的操作。
9.They installed a rotatory 旋转的 table for better accessibility in the kitchen.
他们在厨房安装了一个旋转的桌子,以便更好地访问。
10.The rotatory 旋转的 motion of the fan helps circulate air in the room.
风扇的旋转的运动有助于在房间内循环空气。
11.The engineer designed a new rotatory 旋转的 mechanism for the machine to improve its efficiency.
工程师为机器设计了一种新的旋转的机制,以提高其效率。
12.In a rotatory 旋转的 kiln, materials are heated and mixed continuously.
在一个旋转的窑中,材料被持续加热和混合。
作文
In the realm of engineering and mechanics, the term rotatory is often used to describe movements that involve rotation around an axis. This concept is fundamental in various applications, from simple machines to complex systems. Understanding the principles of rotatory motion can greatly enhance our ability to design and innovate in fields such as robotics, automotive engineering, and aerospace technology.One of the most common examples of rotatory motion is found in the wheels of a vehicle. When a car moves, its wheels rotate around their axles, allowing the vehicle to travel forward or backward. This rotatory movement is not only crucial for mobility but also plays a significant role in the overall efficiency of the vehicle. Engineers must consider factors such as friction, weight distribution, and material strength when designing wheels to ensure optimal performance.Another area where rotatory motion is essential is in the field of robotics. Robots often utilize motors that create rotatory motion to perform tasks with precision and speed. For instance, robotic arms may have joints that allow for rotatory movement, enabling them to reach different angles and positions to manipulate objects effectively. The design of these robotic systems relies heavily on understanding the dynamics of rotatory motion, including torque and angular velocity, which are critical for achieving desired outcomes in automation.In addition to engineering, the concept of rotatory motion can also be observed in nature. For example, the Earth rotates on its axis, resulting in the cycle of day and night. This natural rotatory motion has profound implications for life on our planet, influencing climate patterns, ecosystems, and even human behavior. The study of celestial bodies and their rotatory movements has led to significant advancements in astronomy and our understanding of the universe.Moreover, the principles of rotatory motion are not limited to physical applications. In the world of art and music, rotatory elements can be found in various forms. For instance, a spinning top is a classic toy that demonstrates rotatory motion while captivating children and adults alike. Similarly, in music, certain instruments produce sound through rotatory mechanisms, such as a gramophone or a phonograph, where the disc spins to create melodies.In conclusion, the term rotatory encompasses a wide range of applications and phenomena across different fields. Whether in engineering, robotics, nature, or the arts, understanding rotatory motion is essential for innovation and creativity. As we continue to explore and harness the power of rotatory movements, we open up new possibilities for advancements that can shape our future. Through education and research, we can deepen our comprehension of this fundamental concept, ultimately leading to improved technologies and a better understanding of the world around us.
在工程和机械领域,术语rotatory通常用于描述围绕轴线旋转的运动。这个概念在从简单机器到复杂系统的各种应用中都是基础。理解rotatory运动的原理可以大大增强我们在机器人技术、汽车工程和航空航天技术等领域的设计和创新能力。最常见的rotatory运动的一个例子是在车辆的轮子中。当一辆车移动时,它的轮子围绕其轴旋转,使车辆能够向前或向后行驶。这种rotatory运动不仅对移动至关重要,而且在车辆的整体效率中也发挥着重要作用。工程师在设计轮子时必须考虑摩擦、重量分布和材料强度等因素,以确保最佳性能。另一个rotatory运动至关重要的领域是机器人技术。机器人通常利用产生rotatory运动的电机来以精确和快速的方式执行任务。例如,机器人手臂可能具有允许rotatory运动的关节,使其能够达到不同的角度和位置,从而有效地操纵物体。这些机器人系统的设计在很大程度上依赖于对rotatory运动动力学的理解,包括扭矩和角速度,这对于在自动化中实现预期结果至关重要。除了工程,rotatory运动的概念也可以在自然界中观察到。例如,地球围绕其轴旋转,导致昼夜交替。这种自然的rotatory运动对我们星球上的生命有深远的影响,影响气候模式、生态系统,甚至人类行为。对天体及其rotatory运动的研究已经推动了天文学的发展,并加深了我们对宇宙的理解。此外,rotatory运动的原理并不限于物理应用。在艺术和音乐的世界中,rotatory元素可以以各种形式出现。例如,陀螺是一种经典玩具,展示了rotatory运动,同时吸引儿童和成人。同样,在音乐中,某些乐器通过rotatory机制产生声音,例如留声机或唱片机,唱片旋转以创造旋律。总之,术语rotatory涵盖了不同领域的一系列应用和现象。无论是在工程、机器人、自然还是艺术中,理解rotatory运动对于创新和创造力至关重要。随着我们继续探索和利用rotatory运动的力量,我们为塑造未来的进步开辟了新的可能性。通过教育和研究,我们可以加深对这一基本概念的理解,最终推动技术的改进和对周围世界的更好理解。
