magnetometry
简明释义
英[ˌmæɡnɪˈtɒmɪtri]美[ˌmæɡnəˈtɑːmətri]
n. [物] 磁力测定;[物] 测磁学
英英释义
Magnetometry is the measurement of magnetic fields or magnetic properties of materials, often used in geophysical surveys and archaeological studies. | 磁测量是对磁场或材料的磁性特征进行测量,常用于地球物理勘测和考古研究。 |
单词用法
磁测量技术 | |
磁测量测量 | |
磁测量数据 | |
进行磁测量 | |
应用磁测量 | |
解释磁测量结果 |
同义词
| 磁测量 | Magnetic measurement is crucial in various geological studies. | 磁测量在各种地质研究中至关重要。 | |
| 地磁学 | Geomagnetism helps in understanding the Earth's magnetic field. | 地磁学有助于理解地球的磁场。 | |
| 磁测勘探 | 磁测勘探用于资源勘探。 |
反义词
例句
1.This paper introduces the method of high magnetometry using in water.
介绍了在水中进行高精度磁测的工作方法;
2.This paper introduces the method of high magnetometry using in water.
介绍了在水中进行高精度磁测的工作方法;
3.Geologists use magnetometry to map the Earth's magnetic field variations.
地质学家使用磁测量来绘制地球磁场的变化图。
4.The oil industry employs magnetometry to locate potential drilling sites.
石油行业利用磁测量来寻找潜在的钻探地点。
5.Researchers are developing new magnetometry techniques to improve mineral exploration.
研究人员正在开发新的磁测量技术,以改善矿产勘探。
6.The study of ancient artifacts often involves techniques such as magnetometry to detect buried structures.
对古代文物的研究通常涉及诸如磁测量的技术,以探测埋藏的结构。
7.In archaeology, magnetometry can reveal hidden features of a site without excavation.
在考古学中,磁测量可以在不挖掘的情况下揭示遗址的隐藏特征。
作文
Magnetometry is a scientific technique used to measure the strength and direction of magnetic fields. This method plays a crucial role in various fields such as geology, archaeology, and even space exploration. By utilizing the principles of magnetism, researchers can gather valuable data about the Earth's magnetic field and its variations over time. The study of magnetometry (磁测量法) not only helps scientists understand geological formations but also aids in locating archaeological sites that may be hidden beneath the surface. For example, in archaeology, magnetometry (磁测量法) can detect anomalies in the magnetic field caused by buried structures or artifacts. This non-invasive technique allows archaeologists to map out potential dig sites without disturbing the ground, preserving the integrity of historical locations.In addition to its applications in archaeology, magnetometry (磁测量法) is essential in the field of geology, particularly in mineral exploration. Geologists use magnetometry (磁测量法) to identify areas rich in minerals like iron, nickel, and cobalt, which have distinct magnetic signatures. By analyzing these signatures, they can determine the location and depth of mineral deposits, making it easier to plan extraction operations. Furthermore, understanding the magnetic properties of rocks can provide insights into the geological history of an area, including tectonic activity and volcanic events.Another fascinating application of magnetometry (磁测量法) is in space exploration. Satellites equipped with magnetometers can measure the magnetic fields of other planets and celestial bodies, helping scientists understand their composition and structure. For instance, missions to Mars have utilized magnetometry (磁测量法) to study the planet's ancient magnetic field, revealing clues about its geological past and potential for hosting life.The technology behind magnetometry (磁测量法) has evolved significantly over the years. Modern instruments, such as fluxgate magnetometers and superconducting quantum interference devices (SQUIDs), provide highly sensitive measurements that were not possible with earlier techniques. These advancements have expanded the range of applications for magnetometry (磁测量法), making it an indispensable tool for researchers across various disciplines.In conclusion, magnetometry (磁测量法) is a powerful technique that enhances our understanding of the natural world. Its applications in archaeology, geology, and space exploration demonstrate the versatility and importance of measuring magnetic fields. As technology continues to advance, we can expect to see even more innovative uses for magnetometry (磁测量法) in the future, further enriching our knowledge of both our planet and the universe beyond.
