bifilar
简明释义
英[baɪˈfaɪlə(r)]美[bəˈfɪlər;baɪˈfaɪlər]
adj. 双线的;双股的
英英释义
与两个线或电线相关或涉及的。 | |
Used in the context of a bifilar pendulum, which is a type of pendulum that uses two parallel strings to support the mass. | 用于双线摆的上下文中,双线摆是一种使用两根平行绳索支撑质量的摆。 |
单词用法
双线系统 | |
双线排列 | |
双线圈 | |
双线摆 | |
双线天平 |
同义词
| 双重的 | The bifilar winding technique is often used in transformer design. | 双绕组技术常用于变压器设计。 |
反义词
例句
1.The element employs a bifilar wound wire grid on an insulating substrate .
元件系用双股绕线网缠绕在一块绝缘基板上。
2.Some important properties and advantages of the general bifilar torsion pendulum are then presented.
说明了一般双线摆的重要性质及优点。
3.The element employs a bifilar wound wire grid on an insulating substrate.
元件系用双股绕线网缠绕在一块绝缘基板上。
4.This paper described the structure and principle of a bifilar torsion pendulum in its general (unsymmetrical) form.
本文介绍了一种一般(不对称)双线摆的结构原理。
5.The following aspects are raised to see to in bifilar experiment: 1) the selection of adding particle rate;
提出了在双线法试验中应注意的几个方面 :1)加荷等级的选取 ;
6.To measure the horizontal component of geomagnetism, the "bifilar balance method" is used, together with an additional adjustable magnetic field to compensate the geomagnetic field.
采用“双悬线平衡法”,并利用外加可调磁场与地磁水平分量补偿的方法对地磁水平分量进行了测量。
7.To measure the horizontal component of geomagnetism, the "bifilar balance method" is used, together with an additional adjustable magnetic field to compensate the geomagnetic field.
采用“双悬线平衡法”,并利用外加可调磁场与地磁水平分量补偿的方法对地磁水平分量进行了测量。
8.Using a bifilar 双线圈 configuration can help reduce inductance in certain applications.
在某些应用中,使用bifilar 双线圈配置可以帮助减少电感。
9.In the lab, we used a bifilar 双线圈 setup to study the magnetic fields generated by different currents.
在实验室,我们使用了一个bifilar 双线圈设置来研究不同电流产生的磁场。
10.The engineer designed a bifilar 双线圈 system to improve the accuracy of the measurements.
工程师设计了一个bifilar 双线圈系统,以提高测量的准确性。
11.The bifilar 双线圈 arrangement allows for more compact designs in electronic devices.
这种bifilar 双线圈排列使电子设备的设计更加紧凑。
12.The bifilar 双线圈 winding method is often employed in transformers for better efficiency.
在变压器中,通常采用bifilar 双线圈绕组方法以提高效率。
作文
In the realm of physics and engineering, the term bifilar refers to a specific configuration involving two parallel wires or threads. This concept is particularly significant when discussing the dynamics of oscillations and the behavior of pendulums. To fully understand the implications of a bifilar setup, we must explore its applications and relevance in various fields.One of the most common applications of a bifilar system can be found in the construction of pendulum experiments. In a typical bifilar pendulum, two strings are attached to a mass, allowing it to swing freely while being influenced by gravitational forces. The unique aspect of this setup is that the two strings create a stable axis of rotation, which results in a more controlled oscillation compared to a single string pendulum. This characteristic makes bifilar pendulums particularly useful in scientific experiments where precise measurements are required.Moreover, the bifilar arrangement is not limited to pendulums alone. It has also been utilized in various mechanical systems to reduce friction and enhance stability. For example, in some types of measurement devices, a bifilar support can minimize the effects of lateral forces, ensuring that the readings are accurate and reliable. This principle is crucial in fields such as metrology, where precision is paramount.In addition to its practical applications, the study of bifilar systems offers valuable insights into the principles of mechanics. By analyzing the motion of a bifilar pendulum, students and researchers can better understand concepts such as torque, angular momentum, and energy conservation. These fundamental principles are not only essential for academic pursuits but also for real-world problem-solving in engineering and technology.Furthermore, the versatility of the bifilar configuration extends to areas such as robotics and automation. In robotic arms, for instance, bifilar mechanisms can provide enhanced control over movement, allowing for more intricate tasks to be performed with precision. This capability is particularly important in industries that require high levels of accuracy, such as manufacturing and assembly lines.As we delve deeper into the significance of bifilar systems, it becomes evident that they play a critical role in advancing our understanding of physical phenomena. Whether in educational settings, research laboratories, or industrial applications, the principles behind bifilar configurations continue to inspire innovation and discovery.In conclusion, the term bifilar encompasses a range of concepts that are vital to both theoretical and practical aspects of science and engineering. From its foundational role in pendulum mechanics to its application in advanced technologies, understanding bifilar systems equips us with the knowledge necessary to tackle complex challenges. As we move forward in an increasingly technological world, the importance of mastering such concepts cannot be overstated. Therefore, embracing the intricacies of bifilar arrangements will undoubtedly pave the way for future advancements in various fields of study.
在物理和工程领域,术语bifilar指的是涉及两根平行电线或线的特定配置。这个概念在讨论振动的动态和摆的行为时尤为重要。要充分理解bifilar设置的含义,我们必须探讨其在各个领域的应用和相关性。bifilar系统最常见的应用之一可以在摆实验的构造中找到。在典型的bifilar摆中,两根绳子连接到一个质量上,使其可以自由摆动,同时受到重力的影响。这种设置的独特之处在于,两根绳子创建了一个稳定的旋转轴,这导致与单根绳摆相比,更加可控的振荡。这一特性使得bifilar摆在需要精确测量的科学实验中尤其有用。此外,bifilar排列不仅限于摆动。在各种机械系统中,它也被用来减少摩擦并增强稳定性。例如,在某些类型的测量设备中,bifilar支撑可以最小化横向力的影响,确保读数准确可靠。这一原理在计量学等领域至关重要,因为精度至关重要。除了实际应用外,bifilar系统的研究还提供了对力学原理的宝贵见解。通过分析bifilar摆的运动,学生和研究人员可以更好地理解扭矩、角动量和能量守恒等概念。这些基本原理不仅对学术追求至关重要,而且对工程和技术中的现实问题解决也至关重要。此外,bifilar配置的多功能性还扩展到机器人和自动化等领域。例如,在机器人手臂中,bifilar机制可以提供对运动的增强控制,从而能够以精确度执行更复杂的任务。这种能力在需要高水平准确性的行业中尤为重要,例如制造和装配线。随着我们深入探讨bifilar系统的重要性,显而易见的是,它们在推进我们对物理现象的理解方面发挥着关键作用。无论是在教育环境、研究实验室还是工业应用中,bifilar配置背后的原理继续激励创新和发现。总之,术语bifilar涵盖了一系列对科学和工程的理论和实践方面至关重要的概念。从其在摆动力学中的基础角色到其在先进技术中的应用,理解bifilar系统使我们具备了解决复杂挑战所需的知识。因此,在一个日益技术化的世界中,掌握这样的概念的重要性不容小觑。因此,拥抱bifilar排列的复杂性无疑将为未来各个研究领域的进步铺平道路。
