electromagnetic oscillograph

简明释义

电磁示波器

英英释义

例句

1.In the lab, we calibrated the electromagnetic oscillograph to ensure accurate measurements.

在实验室，我们校准了电磁振荡仪以确保测量的准确性。

2.During the experiment, the electromagnetic oscillograph helped us visualize the oscillations.

在实验过程中，电磁振荡仪帮助我们可视化振荡情况。

3.The engineer used an electromagnetic oscillograph to analyze the signal waveforms in the circuit.

工程师使用电磁振荡仪分析电路中的信号波形。

4.The electromagnetic oscillograph displayed a clear representation of the frequency response.

该电磁振荡仪清晰地显示了频率响应的表现。

5.We recorded the data from the electromagnetic oscillograph for further analysis.

我们从电磁振荡仪中记录了数据以便进一步分析。

作文

The field of electronics has transformed dramatically over the past century, and one of the pivotal inventions that facilitated this transformation is the electromagnetic oscillograph. This device plays a crucial role in measuring and visualizing electrical signals, allowing engineers and scientists to observe the behavior of various electronic components. The electromagnetic oscillograph is essentially an instrument that converts electrical signals into a visual format, typically on a screen or paper, making it easier to analyze complex waveforms.Understanding how the electromagnetic oscillograph works requires a basic knowledge of electromagnetic theory and signal processing. At its core, the device utilizes electromagnetic principles to capture oscillations in electrical signals. When an electrical signal passes through a conductor, it generates a magnetic field around it. The electromagnetic oscillograph detects these changes in the magnetic field and translates them into a visual representation of the signal’s amplitude and frequency.One of the primary applications of the electromagnetic oscillograph is in the field of telecommunications. Engineers use this device to test and troubleshoot communication signals, ensuring that data is transmitted accurately and efficiently. In addition, the electromagnetic oscillograph is instrumental in the development of new technologies, such as wireless communication systems and advanced radar technologies. By providing real-time feedback on signal integrity, the device allows for timely adjustments and improvements in design.Another significant area where the electromagnetic oscillograph is utilized is in medical technology. For instance, electrocardiograms (ECGs) rely on similar principles to monitor the electrical activity of the heart. The electromagnetic oscillograph can be used in conjunction with other medical devices to provide comprehensive data on a patient’s health. This capability is critical in diagnosing various conditions and monitoring patients' responses to treatments.Moreover, the electromagnetic oscillograph is also widely used in research laboratories. Scientists employ this device to study the properties of materials and the behavior of different electrical circuits. By analyzing the oscillographs produced, researchers can gain insights into phenomena such as resonance, damping, and signal distortion. This information is vital for advancing our understanding of physics and engineering principles.In conclusion, the electromagnetic oscillograph is an indispensable tool in modern electronics, telecommunications, medical technology, and scientific research. Its ability to visualize electrical signals has revolutionized the way we understand and interact with electronic systems. As technology continues to evolve, the importance of the electromagnetic oscillograph will only increase, paving the way for new innovations and discoveries across various fields. Embracing this technology not only enhances our technical capabilities but also enriches our understanding of the complex world of electromagnetic phenomena.

电子学领域在过去一个世纪中发生了巨大的变化，而促进这一变革的关键发明之一就是电磁振荡仪。该设备在测量和可视化电信号中发挥着至关重要的作用，使工程师和科学家能够观察各种电子元件的行为。电磁振荡仪本质上是一种将电信号转换为视觉格式的仪器，通常在屏幕或纸张上显示，从而使分析复杂波形变得更加容易。要理解电磁振荡仪的工作原理，需要对电磁理论和信号处理有基本的了解。该设备的核心利用电磁原理来捕捉电信号中的振荡。当电信号通过导体时，会在其周围产生磁场。电磁振荡仪检测这些磁场的变化，并将其转化为信号的幅度和频率的视觉表示。电磁振荡仪的主要应用之一是在电信领域。工程师使用该设备测试和排除通信信号的故障，以确保数据准确高效地传输。此外，电磁振荡仪在新技术的开发中也发挥着重要作用，例如无线通信系统和先进的雷达技术。通过提供关于信号完整性的实时反馈，该设备允许及时进行调整和改进设计。电磁振荡仪还广泛应用于医疗技术领域。例如，心电图（ECG）依赖于类似的原理来监测心脏的电活动。电磁振荡仪可以与其他医疗设备结合使用，以提供患者健康的全面数据。这种能力对于诊断各种疾病和监测患者对治疗的反应至关重要。此外，电磁振荡仪也广泛用于研究实验室。科学家使用该设备研究材料的性质和不同电路的行为。通过分析生成的振荡图，研究人员可以深入了解共振、阻尼和信号失真等现象。这些信息对于推动我们对物理和工程原理的理解至关重要。总之，电磁振荡仪是现代电子学、电信、医疗技术和科学研究中不可或缺的工具。它可视化电信号的能力彻底改变了我们理解和与电子系统互动的方式。随着技术的不断发展，电磁振荡仪的重要性只会增加，为各个领域的新创新和发现铺平道路。拥抱这项技术不仅增强了我们的技术能力，也丰富了我们对电磁现象复杂世界的理解。