electrodynamic bridge

简明释义

电动式电桥

英英释义

例句

1.The electrodynamic bridge was essential for conducting experiments in electromagnetic fields.

在电磁场中进行实验时，电动力学桥是必不可少的。

2.Engineers designed an electrodynamic bridge to improve the accuracy of their measurements.

工程师设计了一个电动力学桥以提高测量的准确性。

3.Using an electrodynamic bridge, scientists were able to detect minute changes in force.

通过使用电动力学桥，科学家能够检测到微小的力变化。

4.The researchers used an electrodynamic bridge to measure the forces acting on the particles in the fluid.

研究人员使用电动力学桥来测量作用于流体中粒子的力。

5.In the laboratory, the electrodynamic bridge helped to stabilize the oscillations of the suspended mass.

在实验室中，电动力学桥帮助稳定悬挂质量的振荡。

作文

The concept of an electrodynamic bridge is fascinating and plays a crucial role in the field of engineering, particularly in electrical and mechanical systems. An electrodynamic bridge is essentially a device that utilizes electromagnetic forces to measure various parameters such as displacement, force, or even pressure. Understanding this concept requires a basic grasp of both electrodynamics and the principles of bridge design. In essence, an electrodynamic bridge operates on the principle of electromagnetic induction. When an electric current passes through a conductor, it generates a magnetic field around it. This phenomenon can be harnessed to create a system where the movement of a component within the bridge can be measured accurately. The design of an electrodynamic bridge usually incorporates precision components that ensure high sensitivity and accuracy in measurements. One of the significant applications of an electrodynamic bridge is in the field of load cells. Load cells are widely used in weighing scales and industrial applications to measure weight or force. By using an electrodynamic bridge, engineers can achieve more precise measurements compared to traditional mechanical methods. This precision is vital in industries where even the slightest deviation can lead to significant errors or losses. Moreover, the electrodynamic bridge also finds its application in research laboratories. Scientists often use these bridges to measure minute changes in physical quantities. For instance, in materials science, researchers might use an electrodynamic bridge to study the mechanical properties of new materials under varying conditions. The ability to accurately measure these properties is essential for developing innovative materials that can withstand extreme conditions. The construction and operation of an electrodynamic bridge involve several key components. Typically, the bridge consists of a fixed frame, a movable element, and a set of sensors that detect changes in position or force. The movable element is often suspended in such a way that it can respond to external forces without significant friction. This design ensures that the measurements taken are as accurate as possible. In addition to its practical applications, the electrodynamic bridge also serves as an excellent educational tool. Engineering students can learn about the principles of electromagnetism and mechanics by constructing their own electrodynamic bridges. This hands-on experience not only enhances their understanding of theoretical concepts but also prepares them for real-world engineering challenges. In conclusion, the electrodynamic bridge is a remarkable invention that combines the principles of electromagnetism with mechanical design to create a highly effective measurement device. Its applications in various fields highlight its importance in modern technology and engineering. As we continue to advance in our understanding of physics and engineering, the electrodynamic bridge will undoubtedly evolve, leading to even more precise and innovative solutions for measuring physical phenomena. Overall, mastering the concept of an electrodynamic bridge not only enriches one's knowledge but also opens doors to numerous possibilities in the engineering world.

“电动桥”的概念令人着迷，并在工程领域，特别是电气和机械系统中发挥着至关重要的作用。“电动桥”本质上是一种利用电磁力来测量各种参数（如位移、力甚至压力）的设备。理解这一概念需要对电动力学和桥梁设计原理有基本的了解。从本质上讲，“电动桥”是基于电磁感应原理运行的。当电流通过导体时，会在其周围产生一个磁场。这一现象可以被利用来创建一个系统，在该系统中，桥内某个组件的运动可以被准确测量。“电动桥”的设计通常包含精密组件，以确保测量的高灵敏度和准确性。“电动桥”的一个重要应用是在称重传感器领域。称重传感器广泛用于称重秤和工业应用中，以测量重量或力。通过使用“电动桥”，工程师可以实现比传统机械方法更精确的测量。这种精确度在一些即使是微小偏差也可能导致重大错误或损失的行业中至关重要。此外，“电动桥”还在研究实验室中得到了应用。科学家们经常使用这些桥来测量物理量的微小变化。例如，在材料科学中，研究人员可能使用“电动桥”来研究新材料在不同条件下的机械性能。准确测量这些性能对于开发能够承受极端条件的创新材料至关重要。“电动桥”的构造和操作涉及几个关键组件。通常，桥由一个固定框架、一个可移动元件和一组传感器组成，这些传感器检测位置或力的变化。可移动元件通常以一种方式悬挂，使其能够在外部力作用下响应，而不会产生显著摩擦。这种设计确保所获得的测量尽可能准确。除了实际应用外，“电动桥”还作为一种优秀的教育工具。工程学生可以通过构建自己的“电动桥”来学习电磁学和力学的原理。这种动手实践不仅增强了他们对理论概念的理解，还为他们准备了应对现实世界工程挑战的能力。总之，“电动桥”是一项将电磁学原理与机械设计结合起来的卓越发明，创造出一种高效的测量设备。它在各个领域的应用突显了它在现代技术和工程中的重要性。随着我们对物理和工程的理解不断深入，“电动桥”无疑会发展，带来更精确和创新的物理现象测量解决方案。总体而言，掌握“电动桥”的概念不仅丰富了个人知识，也为在工程领域的众多可能性打开了大门。