induction bridge

简明释义

感应电桥

英英释义

例句

1.In our physics lab, we used an induction bridge 感应桥 to demonstrate the principles of electromagnetic induction.

在我们的物理实验室里，我们使用了一个感应桥 induction bridge 来演示电磁感应的原理。

2.The engineer explained how the induction bridge 感应桥 works in measuring electrical resistance.

工程师解释了如何使用感应桥 induction bridge 测量电阻。

3.The induction bridge 感应桥 can accurately measure small changes in voltage.

该感应桥 induction bridge 可以准确测量电压的小变化。

4.During the workshop, participants learned how to calibrate an induction bridge 感应桥 for precise measurements.

在研讨会上，参与者学习了如何校准感应桥 induction bridge 以进行精确测量。

5.To troubleshoot the circuit, we connected an induction bridge 感应桥 to identify any discrepancies.

为了排除电路故障，我们连接了一个感应桥 induction bridge 来识别任何差异。

作文

The concept of an induction bridge is a fascinating topic that combines principles of physics and engineering. An induction bridge is essentially a device used to measure the inductance of a coil or circuit component. It operates on the principle of electromagnetic induction, where a changing magnetic field induces an electromotive force (EMF) in a conductor. This principle is fundamental in various applications, including electrical engineering, telecommunications, and even medical devices.To understand the workings of an induction bridge, one must first grasp the basics of inductance. Inductance is the property of an electrical conductor by which a change in current flowing through it induces an electromotive force (EMF) in the same or adjacent circuits. This effect is utilized in transformers, inductors, and many other electrical components. The induction bridge allows engineers to accurately measure this inductance, providing crucial data for designing and optimizing electronic circuits.An induction bridge typically consists of a balanced circuit that includes known inductors and resistors. By adjusting the values of these components, one can achieve a balance in the circuit, allowing for precise measurements of the unknown inductance in question. This method is highly regarded for its accuracy and reliability compared to other measurement techniques.In practical applications, the induction bridge is invaluable. For instance, in the manufacturing of electronic devices, ensuring that the inductance values of components are within specified tolerances is critical for the overall performance and functionality of the device. Any deviations can lead to malfunctions or inefficiencies. Therefore, using an induction bridge to test these components before they are assembled into final products is a standard practice in quality control processes.Moreover, the induction bridge has educational significance as well. In physics and engineering courses, students often use this device to gain hands-on experience with inductance and electromagnetic concepts. By engaging with an induction bridge, students can visualize and understand the theoretical principles they learn in the classroom, bridging the gap between theory and practical application.In conclusion, the induction bridge is more than just a measurement tool; it represents a critical intersection of theory and practice in electrical engineering. Its ability to provide accurate inductance measurements makes it indispensable in various fields, from industrial manufacturing to academic research. As technology continues to evolve, the role of devices like the induction bridge will undoubtedly expand, leading to new innovations and advancements in electrical engineering and related disciplines.

“感应桥”的概念是一个迷人的话题，它结合了物理学和工程学的原理。感应桥本质上是一个用于测量线圈或电路元件电感的设备。它基于电磁感应原理工作，即变化的磁场在导体中感应出电动势（EMF）。这一原理在各种应用中都是基础，包括电气工程、电信，甚至医疗设备。要理解感应桥的运作，首先必须掌握电感的基本知识。电感是电导体的一种特性，通过它，流经导体的电流变化会在同一或相邻电路中感应出电动势（EMF）。这种效应被应用于变压器、电感器和许多其他电气元件中。感应桥使工程师能够准确测量这种电感，为电子电路的设计和优化提供至关重要的数据。感应桥通常由一个平衡电路组成，该电路包括已知的电感器和电阻器。通过调整这些元件的值，可以在电路中实现平衡，从而允许对待测电感进行精确测量。这种方法因其准确性和可靠性而受到高度重视，相较于其他测量技术更具优势。在实际应用中，感应桥是无价之宝。例如，在电子设备的制造过程中，确保组件的电感值在规定的公差范围内对于设备的整体性能和功能至关重要。任何偏差都可能导致故障或低效。因此，在最终产品组装之前，使用感应桥测试这些组件是质量控制过程中的标准做法。此外，感应桥在教育方面也具有重要意义。在物理和工程课程中，学生们常常使用该设备来获得电感和电磁概念的实践经验。通过与感应桥的互动，学生可以可视化并理解他们在课堂上学习的理论原则，弥合理论与实践应用之间的差距。总之，感应桥不仅仅是一个测量工具；它代表了电气工程中理论与实践的重要交汇点。它提供准确的电感测量的能力使其在工业制造、学术研究等多个领域不可或缺。随着技术的不断发展，像感应桥这样的设备的作用无疑会扩大，推动电气工程及相关学科的新创新和进步。