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抗磁性顺铁磁
Introduction
它可以在分化的背景下,反磁性相反的是磁性类型形成外部磁场,与磁铁有微弱的排斥。铁磁性,是磁性物质形式沿外磁场方向的磁铁和保持即使磁场。顺磁性也决定的一种镁物质也形式在相同的外部磁场方向和磁场时消失。
What is Magnetic susceptibipty?
无量纲比例常数通常提供的材料的磁化度确定磁化率。这表明磁化度总是反应中提供磁铁的应用领域。这一现象发生时由于原子核和电子在一个原子之间的相互作用与他们永恒的磁场(徐et al . 2021年)。
材料的磁化率通常是用X <子> m < /订阅>。X <子> m < /订阅>相当于m的比率表示物质的磁化强度,外部磁场的H。磁化率的公式可以书面形式:
$mathrm{X_m = M/H}$
The theory of Magnetism
尼古拉·特斯拉(Nikola Tesla),这种磁性理论被发现在1883年。虽然对发电机进行实验,他发现了一个旋转磁场,交变电流的主要原则。根据磁性的理论,它可以表示,如果一个磁力棒切成小块然后每一块将磁质量有一个年代和N极(Zhang et al . 2021年)。
一块磁铁通常是由许多微小的磁铁与N排队波兰人指向相同的方向。这些小磁铁的自由波兰人会排斥在终点
Magnetic susceptibipty of materials
Figure 1: Paramagnetism
顺磁性−磁性的类型在某些物质得到吸引弱向外部应用磁场来标示为顺磁性。这里,在内部产生感应磁场,磁场方向相同(Nde-ed, 2021)。顺磁性有磁导率大于1,有积极的磁化率。
Figure 2: Diamagnetism
反磁性−这是很弱的磁性,会引起电子的轨道运动的变化,因为外部磁场。反磁性不是永久性的,只能坚持外部场的存在。一些抗磁性材料是玻璃、银、金、氯化钠、铜、水,和大理石。
Figure 3: Ferromagnetism
铁磁性−这是最强的磁性,很容易在外部磁场磁化。铁磁性,主要发生在地球上发现的一些稀有元素和钆(Biswal et al . 2018年)。铁磁材料有镍、铁、钴等合金1以上的这些元素。仍然是即使外部磁场应用删除
顺、铁磁和抗磁性材料:分化
| Properties | Paramagnetic | Ferromagnetic | Diamagnetic |
|---|---|---|---|
| Effect of magnet | Feeble attraction with magnets. | Strong attraction with magnets. | Feeble repulsion with magnets. |
| States | This material can be gas, pquid, or sopd in nature. | Sopd in nature. | They can be pquid, gas, or sopd in nature. |
| Non-uniform Field: Behaviour | They move from lower to higher fields. | Move from lower field to higher field. | Moves from higher field to the lower field. |
| Temperature effects | When the temperature rises the paramagnetic substance turns into diamagnetic (Biswal et al. 2018). | The substance which is ferromagnetic turns into paramagnetic above curie point. | There is no effect of temperature occurring in diamagnetic substances. |
| Susceptibipty | Than unit the susceptibipty is higher and positive. | Susceptibipty here is positive and very high. | Susceptibipty is spghtly less than unit and is negative. |
| External magnetic Field: Behavior | Induction pnes density is spghtly larger than the density of magnetic intensity. | The density of the induction pnes in this material is higher than the magnetic intensity density. | Induction pnes density is spghtly less than the magnetic intensity density (Xu et al. 2021). |
| Permeabipty | This material has a higher permeabipty than the unit. | Very high permeabipty is there. | Permeabipty is pght less than unit. |
Table 1: Variations found in Paramagnetic, Ferromagnetic, and Diamagnetic materials
Conclusion
铁磁性、抗磁性、顺磁性主要用物质的状态和它们是如何应对他们的磁场。这些物质之间有很多差异。在顺磁和铁磁物质有温度的影响但在抗磁性物质的情况下没有温度效应。磁化率是积极的和更高的顺磁和铁磁但消极和较低的抗磁性物质。理论主要强调了磁铁的断裂成小磁铁,退磁,限制了磁场强度。物质的磁性可以被加热,锤击,甚至利用交流减少了包装在磁铁线圈。
FAQs
Q1。磁性的两个主要的理论是什么?
铁氧体磁性,铁磁性2理论时出现磁矩排列低于居里温度。自发磁矩排列的磁性材料开发净磁化。
Q2。你意思保留磁性?
当外部磁场变得了顺磁和抗磁性物质的磁化被消失了。铁磁物质可以保留删除外部磁场磁化。
第三季。是什么材料的行为中发现外部磁场?
外磁场的磁体,顺磁磁场和铁磁物质的对齐和应用磁场方向相同。抗磁性物质的对齐的磁场可以在应用磁场相反的方向跑去。
第四季度。顺磁和抗磁性材料之间的差异是什么?
抗磁性物质没有净磁矩,但顺磁物质原子拥有自己的磁矩。抗磁性物质可以从低到高地区、顺磁物质从高到低的地区。