diamagnetic

简明释义

英[ˌdaɪəmæɡˈnetɪk]美[ˌdaɪəmæɡˈnetɪk]

adj. 反磁性的；抗磁性的

英英释义

单词用法

同义词

反义词

例句

1.Ferrocene is a crystalline, diamagnetic material that is extremely stable to air, moisture and light.

二茂铁是一个晶状的逆磁性物质，在空气中，湿气和光下是非常稳定的。

2.Most materials, including milk and water, are diamagnetic, which means they are repelled by external magnetic fields-though this phenomenon is far too subtle to be observed in normal circumstances.

大多数物质，如牛奶和水都是反磁体，即他们会排斥外来磁场，这种现象很微弱，在常规条件下是几乎是观察不到的。

3.Ferrocene is a crystalline, diamagnetic material that is extremely stable to air, moisture.

二茂铁是一个晶的逆磁性物质，在空气中，湿气和光下是非常稳定的。

4.Many of the metals and most of the nonmetals are diamagnetic.

许多金属和大部分非金属都是逆磁性的。

5.The needle knife body and the needle knife head are made of a paramagnetic metal material, and a layer of diamagnetic metal material coat is coated on the paramagnetic metal material.

所述针刀身和针刀头由顺磁性金属材料制成；并且，所述顺磁性金属材料之上涂覆有一层反磁性金属材料涂层。

6.The complex is diamagnetic, it is only slightly soluble in water.

这个综合物是反磁性的，它仅微溶于水。

7.Most materials, including milk and water, are diamagnetic, which means they are repelled by external magnetic fields-though this phenomenon is far too subtle to be observed in normal circumstances.

大多数物质，如牛奶和水都是反磁体，即他们会排斥外来磁场，这种现象很微弱，在常规条件下是几乎是观察不到的。

8.Most materials, including milk and water, are diamagnetic - their interaction with a magnetic field is too weak to be observed under normal circumstances.

大部分物质这其中包括牛奶和水是反磁性的—在正常的情况下它们与磁场的反应太弱了很难被发现。

9.The diamagnetic 抗磁性的 behavior of materials can be utilized in magnetic levitation applications.

材料的diamagnetic 抗磁性的行为可以用于磁悬浮应用。

10.When exposed to a strong magnetic field, diamagnetic 抗磁性的 substances will slightly repel away from the source.

当暴露在强磁场中时，diamagnetic 抗磁性的物质会稍微抵制源头。

11.In a laboratory, scientists often use diamagnetic 抗磁性的 materials to create stable environments for sensitive experiments.

在实验室中，科学家常常使用diamagnetic 抗磁性的材料为敏感实验创造稳定的环境。

12.Certain gemstones, such as diamonds, exhibit diamagnetic 抗磁性的 properties, making them unique in their response to magnetic fields.

某些宝石，如钻石，表现出diamagnetic 抗磁性的特性，使它们在对磁场的反应中独具特色。

13.Materials like copper and bismuth are considered diamagnetic 抗磁性的 because they are repelled by magnetic fields.

像铜和铋这样的材料被认为是diamagnetic 抗磁性的，因为它们会被磁场排斥。

作文

In the fascinating world of physics, materials can be categorized based on their magnetic properties. One such category is known as diamagnetic, which refers to materials that are not attracted to a magnetic field and, in fact, are slightly repelled by it. This property arises because the electrons in a diamagnetic material tend to pair up, resulting in no net magnetic moment. As a result, when exposed to an external magnetic field, these materials exhibit a very weak response. This behavior can be attributed to the principles of quantum mechanics, where the arrangement of electrons plays a crucial role in determining the magnetic characteristics of a substance.Common examples of diamagnetic materials include bismuth, copper, and gold. These materials are often used in various applications due to their unique properties. For instance, the diamagnetic nature of copper makes it an excellent conductor of electricity, as it does not retain any magnetic field that could interfere with the flow of electric current. Similarly, gold's diamagnetic properties contribute to its use in electronics and jewelry, where its resistance to oxidation and corrosion is highly valued.Understanding the concept of diamagnetic materials is essential for various scientific fields, including material science, engineering, and even medicine. In medical imaging, for example, diamagnetic materials can be utilized in magnetic resonance imaging (MRI) to enhance image quality and provide clearer results. The ability of diamagnetic substances to create a contrast in images allows for better diagnosis and treatment planning.Moreover, the study of diamagnetic materials has led to advancements in technology. Researchers are constantly exploring new diamagnetic compounds that could lead to innovations in data storage and energy efficiency. With the rise of quantum computing, understanding how diamagnetic materials interact with magnetic fields becomes increasingly important, as these interactions can impact the performance of qubits, the fundamental units of quantum information.In conclusion, diamagnetic materials play a significant role in both theoretical and practical applications in science and technology. Their unique properties not only enhance our understanding of magnetism but also pave the way for advancements in various industries. As we continue to explore the complexities of materials at the atomic level, the significance of diamagnetic substances will undoubtedly grow, leading to new discoveries and innovations that could transform our world. By appreciating the unique characteristics of diamagnetic materials, we can better understand the intricate tapestry of physical phenomena that govern our universe.

在物理学这个迷人的世界中，材料可以根据其磁性特性进行分类。其中一个类别被称为反磁性，指的是不被磁场吸引，实际上会被轻微排斥的材料。这一特性产生的原因是，反磁性材料中的电子倾向于成对存在，导致没有净磁矩。因此，当暴露于外部磁场时，这些材料表现出非常微弱的反应。这种行为可以归因于量子力学的原理，其中电子的排列在决定物质的磁性特征中起着至关重要的作用。常见的反磁性材料包括铋、铜和金。这些材料因其独特的性质而常用于各种应用。例如，铜的反磁性特性使其成为优秀的电导体，因为它不会保留任何可能干扰电流流动的磁场。类似地，金的反磁性特性有助于其在电子和珠宝中的应用，在这些领域中，其抗氧化和抗腐蚀的特性受到高度重视。理解反磁性材料的概念对于材料科学、工程甚至医学等多个科学领域至关重要。例如，在医学成像中，反磁性材料可以用于磁共振成像（MRI），以增强图像质量并提供更清晰的结果。反磁性物质在图像中创造对比度的能力使得更好的诊断和治疗计划成为可能。此外，对反磁性材料的研究推动了技术的进步。研究人员不断探索新的反磁性化合物，这可能导致数据存储和能效方面的创新。随着量子计算的兴起，了解反磁性材料与磁场的相互作用变得越来越重要，因为这些相互作用可以影响量子比特的性能，量子比特是量子信息的基本单位。总之，反磁性材料在科学和技术的理论和实际应用中都发挥着重要作用。它们独特的特性不仅增强了我们对磁性的理解，而且为各个行业的进步铺平了道路。随着我们继续探索原子级材料的复杂性，反磁性物质的重要性无疑会增长，导致新的发现和创新，这可能改变我们的世界。通过欣赏反磁性材料的独特特性，我们可以更好地理解支配我们宇宙的物理现象错综复杂的画卷。