Magnetic Domain | Magnet, its Properties and Magnetic Domains | Magnetic Domain In Hindi And English

Magnetic Domain

Magnetic Domain Theory

In ferromagnetic materials, the attractive snapshots of a generally huge number of molecules are adjusted corresponding to one another to make territories of solid polarization inside the material. These regions, which are around a millimeter in size, contain billions of adjusted molecules and are called attractive spaces.

फेरोमैग्नेटिक सामग्रियों में, अपेक्षाकृत बड़ी संख्या में परमाणुओं के चुंबकीय क्षणों को सामग्री के भीतर मजबूत चुंबकीयकरण के क्षेत्रों को बनाने के लिए एक दूसरे के समानांतर संरेखित किया जाता है। ये क्षेत्र, जो आकार में लगभग एक मिलीमीटर होते हैं, में अरबों संरेखित परमाणु होते हैं और इन्हें चुंबकीय डोमेन कहा जाता है।

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After completing this section you will be able to do the following:

• Define a magnetic domain.
• Explain one way an object can be magnetized.
• एक चुंबकीय डोमेन परिभाषित करें।
• किसी वस्तु को चुम्बकित करने का एक तरीका बताइए।

An attractive area is a locale wherein the attractive fields of iotas are assembled and adjusted. In the analysis underneath, the attractive areas are demonstrated by the bolts in the metal material. You can consider attractive areas as smaller than usual magnets inside a material. In an unmagnetized object, similar to the underlying bit of metal in our analysis, all the attractive areas are pointing in various ways. In any case, when the metal got charged, which is the thing that happens when it is scoured with a solid magnet, all like attractive posts arranged and pointed a similar way. The metal turned into a magnet. It would immediately become unmagnetized when its attractive areas came back to an irregular request. The metal in our analysis is a delicate ferromagnetic material, which implies that it is effectively polarized yet may not hold its attraction long.

एक आकर्षक क्षेत्र एक स्थानीय स्थान है, जिसमें इओटास के आकर्षक क्षेत्रों को इकट्ठा और समायोजित किया जाता है। नीचे के विश्लेषण में, धातु सामग्री में बोल्टों द्वारा आकर्षक क्षेत्रों का प्रदर्शन किया जाता है। आप एक सामग्री के अंदर आकर्षक क्षेत्रों को सामान्य मैग्नेट से छोटा मान सकते हैं। हमारे विश्लेषण में धातु के अंतर्निहित बिट के समान एक असंगठित वस्तु में, सभी आकर्षक क्षेत्र विभिन्न तरीकों से इंगित कर रहे हैं। किसी भी मामले में, जब धातु को चार्ज किया जाता है, जो कि वह चीज है जो तब होती है जब इसे एक ठोस चुंबक के साथ परिमार्जन किया जाता है, सभी की तरह आकर्षक पोस्ट की व्यवस्था होती है और इसी तरह से इशारा किया जाता है। धातु एक चुंबक में बदल गई। जब इसके आकर्षक क्षेत्र एक अनियमित अनुरोध पर वापस आ गए तो यह तुरंत ही असंगठित हो जाएगा। हमारे विश्लेषण में धातु एक नाजुक फेरोमैग्नेटिक सामग्री है, जिसका अर्थ है कि यह प्रभावी रूप से ध्रुवीकृत है फिर भी लंबे समय तक इसका आकर्षण नहीं रह सकता है।

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How might you transform a paper cut into a magnet? 

You can transform a paper cut into a magnet by scouring a solid magnet a few times over the outside of the paper cut. The more you drag the magnet over the paper cut, the more grounded the paper clasp will get charged. Something very similar occurred with the metal in the examination. At the point when we scoured the magnet over the outside of the metal, a portion of the attractive spaces adjusted and the metal turned out to be halfway polarized. At the point when we scoured the magnet over the metal a subsequent time, a greater amount of the attractive spaces got adjusted and the metal turned into a more grounded magnet.

What is diverse about ferromagnetic materials that make them emphatically attractive? 

In ferromagnetic materials, the attractive snapshots of a moderately enormous number of particles are adjusted corresponding to one another to make territories of solid charge inside the material. These zones, which are around a millimeter in size, contain billions of adjusted iotas and are called attractive areas. Attractive spaces are constantly present in ferromagnetic materials because of the manner in which the particles attach to frame the material. In any case, when a ferromagnetic material is in the unmagnetized condition, the attractive areas are haphazardly arranged so the attractive field quality in the bit of material is zero. 

In the unmagnetized condition, the material will be pulled in to a magnet however won't go about as a magnet. In other words, two unmagnetized bits of ferromagnetic material won't be pulled in to one another. At the point when a ferromagnetic material is charged, the attractive spaces adjust corresponding to one another to deliver a huge net field quality in the material and the material gets attractive.

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In the post, we solve your all Question about magnetic domain

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• What are the magnetic properties of materials?
• How do you align magnetic domains?
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