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MICopper and Magnets: A Surprising Interaction.
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STPlacing an anvil in the magnetic black hole 🧲
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@styro.drake
866
THThe video demonstrates a homemade magnetic accelerator. At the beginning, a hand places small, square, silver magnets in a straight line along a wooden stick that lies on a metal sheet. A small, spherical metallic object is then positioned at one end of the stick. When the stick is pushed, the metallic sphere is rapidly accelerated along the line of magnets and shoots off the far end. The entire process unfolds on a white background, with a white object visible in the top right corner, remaining static throughout. The motion is smooth and fast, highlighting the magnetic forces at play in the setup. The only spoken words are "so you" at around 5 to 8 seconds, which appear to be an incomplete utterance, possibly part of a larger narration or commentary not fully captured in the audio. @cs2skincom
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@the_zenithzy
4.2K
ROMagnetic force plays a crucial role in everyday life, but its strength is controlled by low permeability for smooth operations. This experiment demonstrates that a current-carrying conductor indeed produces a magnetic field.
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@rohail.sarfraz
33.7K
MEWhen iron is heated beyond its Curie temperature (approximately 770 °C), it undergoes a magnetic phase transition. It stops behaving as a ferromagnetic material and becomes paramagnetic instead.
At lower temperatures, iron’s atomic magnetic domains are aligned in an organized structure, creating strong, permanent magnetism. But once the temperature crosses the Curie point, thermal agitation becomes intense enough to disrupt that alignment. The domains lose their coordinated order, eliminating the strong magnetic attraction.
Importantly, this transformation is reversible. As the iron cools below the Curie temperature, the domains can realign, restoring its ferromagnetic properties.
DM for credit or removal request (no copyright intended) ©️ All rights and reserved to the respective owner(s)
@meta.aihub
16.4K
MIFollow me for more information
When iron is heated above 770°C, something fascinating happens
The
Curie Point of Iron At 770°C (1043 K) - called the Curie temperature - iron loses its ferromagnetism. That means: Below 770°C → Iron is strongly magnetic Above
770°C → Iron suddenly becomes non-magnetic • Why Does This Happen?
Inside iron, tiny regions called magnetic domains are normally aligned. At lower temperatures → domains stay ordered As temperature rises → atomic vibrations increase At 770°C → thermal energy disrupts alignment The magnetic order collapses. Iron doesn’t lose its magnetic atoms - it just loses the organized alignment. _ What Iron Becomes Above Curie Point Above 770°C: Iron becomes paramagnetic It still responds slightly to a magnetic field But it won’t stick to a magnet on its own If you cool it back below 770°C, magnetism returns.
Important: Not Melting 770°C is not melting point. Curie point → magnetic change Melting point of iron → about 1538°C So at 770°C, iron is still solid - just not magnetic. O Real-World Example If you heat a nail with a blowtorch: A magnet will stick at first As it glows red hot → magnet suddenly falls off That moment is the Curie temperature.
#viral #mindingite0 #tranding #fact #science
@mind_ingite0.1
4.8K
STWhen iron is heated to extreme temperatures, it reveals a fascinating secret hidden inside its atoms. At normal temperatures, iron is ferromagnetic, meaning its tiny magnetic regions called domains line up in the same direction. This alignment is what makes iron strongly attracted to magnets.
But when the temperature rises to about 770°C (1043 K), something dramatic happens. This temperature is known as the Curie point. The intense heat increases atomic vibrations so much that the neatly aligned magnetic domains lose their order. The internal magnetic structure collapses, and iron suddenly loses its strong magnetism.
Above this point, iron doesn’t become completely non-magnetic it becomes paramagnetic, meaning it only responds weakly to magnetic fields. The metal itself hasn’t changed chemically; only the arrangement of its atomic magnets has been disrupted by thermal energy.
Cool the iron back below 770°C, and the domains realign, restoring its magnetism. A simple rise in temperature can temporarily switch iron’s magnetism off. 🔥🧲
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@str_ivon
280
SICopper Coil Battery Train (Electromagnetism) #sciencefacts
@simplysciencegyan
12.5K
INWhen iron is heated above 770°C, it reaches its Curie point. At this temperature, iron suddenly loses its magnetic properties. Below 770°C, iron is magnetic because its atomic magnetic domains are neatly aligned. But as the temperature rises, heat energy disturbs this alignment. Once it crosses the Curie point, the domains become random, and the iron stops acting like a magnet. Important detail: Iron doesn’t lose its magnetic ability permanently. When it cools below 770°C, the magnetic alignment can return. "DM for credit/removal" Follow @instaablend for more 📸 ✨ #ScienceReel #PhysicsFacts #CuriePoint #MagnetismExplained #ThermalEnergy IronScience ScienceDaily EngineeringFacts MaterialsScience DidYouKnow EducationalReel ScienceLovers ViralScience LearnSomethingNew
@bitzcasino
@instaablend
963
39.4K
NEWhen iron is heated above 770°C, it reaches its Curie point. At this temperature, iron suddenly loses its magnetic properties. Below 770°C, iron is magnetic because its atomic magnetic domains are neatly aligned. But as the temperature rises, heat energy disturbs this alignment. Once it crosses the Curie point, the domains become random, and the iron stops acting like a magnet. Important detail: Iron doesn’t lose its magnetic ability permanently. When it cools below 770°C, the magnetic alignment can return. "DM for credit/removal" Follow @instaablend for more 📸 ✨ #ScienceReel #PhysicsFacts #CuriePoint #MagnetismExplained #ThermalEnergy IronScience ScienceDaily EngineeringFacts MaterialsScience DidYouKnow EducationalReel ScienceLovers ViralScience LearnSomethingNew
@bitzcasino
@neuron_nuggetss
21.4K
THWhen an electric current flows through a metal wire, electrons begin moving through the atomic lattice — and physics activates instantly ⚡🔩
That movement meets resistance, converting electrical energy into heat. Increase the current, and the wire can warm up, glow red, or even melt. At the same time, an invisible magnetic field forms around the wire, a core principle behind motors, transformers, and electromagnets 🧲
With high or alternating current, the interaction between electricity and magnetism can even make the wire vibrate slightly, producing a faint hum. It’s just a simple strand of metal — until electricity brings it to life.
love engineering & science? follow @thelogicly 🌟
#electricity #metalwire #electromagnetism #sciencefacts #onlyoriginals
@thelogicly
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