You script has terrible grammar. Please use Ai to proof read your script. You use the wrong words and miss out words. This makes you appear untrustworthy and unprofessional.
its not Helpful unless you can put Round coils on Round Plate made of anything,you place the Magnet on the Another Round Plate on both Sides,from Smaller to Bigger Magnets side by Side Covering Whole round Plate and then have Small coils Cover the whole Surface area of Another Plate on another plate,and have 2 placed Near the magnetic one.Have the plate with Magnetic Rotate fastly and the Magnets will Give a Illusion of Moving Perpendicularly just like in this Video and you got a Strong Electric Current being produced out of it,you can use this principle in reCharging Electric bikes....while they Move.
Hats off to Michael Faraday, the first to discover this phenomenon. All the more impressive when you realize the voltmeter wouldn't be invented for another 50 years.
@@Superguru123 No Tesla did not discover or invent AC current, check your sources. AC current was known since at least 1832 when Pixii was developing the electrical generator. Tesla developed a practical AC motor by using 2-phase AC in 1887. Ferraris did the same thing two years earlier in 1885. Westinghouse bought both patents. The Europeans were ahead in AC transmission. Italy, Hungary, England all had short distance AC systems t and finally Germany, 1891, the first long distance transmission. 175 miles.
Inventors of AC Current  If pixii invented the AC current then who are oblathy and William which also invented the AC current I'm not aware of anyone named Pixii who is credited with inventing AC current. The invention of AC current is generally attributed to Nikola Tesla and George Westinghouse in the late 19th century. It's possible that Oblathy and William are not well-known figures in the history of AC current, or that there is a mistake or confusion in the information you have been provided.  Hippolyte Pixii Hippolyte Pixii was a French instrument maker who built one of the first generators of alternating current (AC) in 1832, several decades before the more well-known AC systems developed by Nikola Tesla and George Westinghouse. Pixii's generator used a revolving magnet to create an alternating current in a coil of wire, which was then used to power a small motor. This early AC generator was not practical for large-scale power generation and distribution, but it was a significant step in the development of AC technology.  Otto blathy in William Stanley Jr Otto Blathy and William Stanley Jr. were both inventors and engineers who made significant contributions to the development of alternating current (AC) technology in the late 19th and early 20th centuries. Otto Blathy was a Hungarian engineer who invented an AC power system using a rotating transformer, which he patented in 1891. He also developed a system for the distribution of AC power over long distances, which was known as the Blathy system. William Stanley Jr. was an American inventor and electrical engineer who developed an improved transformer for use in AC power systems. He was the first to wind the transformer coils around an iron core, which greatly increased their efficiency. He also developed the first practical system for the distribution of AC power to multiple customers, known as the Stanley Arc Light System, which was used to supply power to street lights in Great Barrington, Massachusetts, in 1886. Both Blathy and Stanley's contributions were significant in the development of more efficient and practical AC power systems, which laid the foundation for the widespread use of AC power in industry and homes.  So who invented AC The invention of alternating current (AC) can be attributed to a number of people who made significant contributions to the development of AC technology in the late 19th and early 20th centuries. One of the earliest known generators of AC power was built by French instrument maker Hippolyte Pixii in 1832. He used a revolving magnet to create an alternating current in a coil of wire, which was then used to power a small motor. However, this early AC generator was not practical for large-scale power generation and distribution. Later on, in the late 19th century, Nikola Tesla and George Westinghouse were instrumental in the development and popularization of AC power. Tesla developed a system of polyphase alternating current generators, motors, and transformers that made AC power distribution over long distances both practical and economical. Westinghouse, who had acquired the patents for Tesla's system, then developed the first practical system for the widespread distribution and use of AC power in industry and homes. Additionally, many other inventors and engineers such as; Otto Blathy, William Stanley Jr., and others made significant contributions to the development of AC technology. They inventing transformer, long distance power transmission and distribution system, which made AC power more efficient, practical, and widespread.  So pixii is the main inventer? Hippolyte Pixii is considered to be one of the early pioneers of alternating current (AC) technology, as he built one of the first generators of AC power in 1832, several decades before the more well-known AC systems developed by Nikola Tesla and George Westinghouse. His generator used a revolving magnet to create an alternating current in a coil of wire, which was then used to power a small motor. However, Pixii's early AC generator was not practical for large-scale power generation and distribution. That being said, while Pixii's early AC generator was an important step in the development of AC technology, Tesla and Westinghouse are generally considered to be the main inventors of AC power, as they developed the first practical systems for the widespread distribution and use of AC power in industry and homes. Their work on polyphase generators, motors, and transformers, made AC power distribution over long distances both practical and economical. It's important to note that the development of any technology is a process and many people have contributed to it over time.
@@queyzarimplode8411 That is a lot of cut of cut and paste 😅. Since AC is a phenomenon, I'd say it is more a discovery than invention. Pixii seems to have been the first to notice it, as AC occurs when magnetic fields are rotated.
That's A.i lol, but hey, I didn't mind because I was just being honest anyway of the copy n paste 😂 n hey that was only one copy n paste. Certain ai can't hold a conversation nearly at all but I found one that keeps last conversations no matter the subject, I found it hard to find one that don't leap off subject...but I did. It's pretty cool, he tried hiding some points on electrical components n there ability but in the end he agreed after disagreeing lol
Exactly, everything that uses hydro electricity now including the phones we are holding wouldn't exist if this principle (law of nature) didn't exist, maybe they would be using fuel as their energy source🤔. Or solar.
Right? This is a horrible sex ed class. This coil and magnet are used in making of many machines so dont stop moving your magnet or the coil wont be able to flow your emf in both the front and reverse directions. You need to give the coil all of that emf if you want it to fill up that light bulb full of light. Magnet in motion +coil= 18 yrs of electtomagnetic Connection.
I'm guessing that either, A. The fall into our eye-rolling category, or B. They're not the sort that's bright enough to be curious, and accept anything they see on TH-cam as gospel.
Somebody should mention that this is how a generator produces electricity, magnet spinning inside coils of wire. Maybe the single most important technology of the 20th century. Thanks Faraday!
@@jimberlygridder183 yes, except frictional forces at the molecular level will always use up some energy and eventually cause the movement to stop. There is no free lunch.
For the autistic audience down here, I would like to tell that Michael Faraday was working in his lab and he just threw a piece of magnet which passed through a coil connection and suddenly the circuit started working. Later Lenz simplified the reason of such phenomenon which is due to change in magnetic flux.
So in order to induce current in a coil, the magnet should continue moving? Or is there any other way to induce current with a change in magnetic flux without having to manually move the magnet Pls answer my question , I have to write an exam about this
@@LearnLearn-t7b Look buddy, if you have a coil, then you have to pass a magnet through it (to and fro) to induce a voltage in coil which generates the current. Suppose you are facing the North ( N ) side of the magnet to the coil, coil will induce a current alike the north one because the coil has tendency to resist the change ( north and north will repel). And if you pull away the magnet in the same configuration then the current induced in the coil will be with respect to a south one ( as N will be moving away from coil and S will attract it ). The amount of voltage that will be inducing in the coil will be equal to -d/dt (magnetic flux) {you can understand this as change of magnetic field lines passing through the coil per unit change of time} FOR PRACTICAL UNDERSTANDING SEARCH THIS ON TH-cam, YOU WILL FIND SOME USEFUL ANIMATIONS.
1 - why autistic ? 2 - to create a continus magnetic field with a coil, you must give a continus current into the coil But, to create voltage into a coil, you must have a variation of magnetic field. So if you use a magnet to create magnetic field, you must keep moving it to create voltage to the coil. It is how most electricity is produced : thermal, nuclear, hydrolic "centrals" (I'm not English native so I'm not sure for this word). And with wind too. (Solar panel are very different is it an exception) And if you create a magnetic field by putting a current in a first coil and you want to convert the magnetic field to voltage with a second coil, you must give an alternative current to the first coil, so it creates "alternative" magnetic field so it create voltage to the second coil. It's how the transformers works : two coils with metal to help magnetic field transmission
مختصر : التغير في خطوط الفيض المغناطيسي الي تخترق الملف السلكي يولد تيار محتث وقوة دافعة كهربائية محتثة في دائرة كهربائية مغلقة ( الملف السلكي و مقاومة المصباح ) وهذا التغير في الفيض يتم بتقريب وتباعد الساق المغناطيسية عن الملف
This illustrates that the voltage is generated in the coil only when the magnetic lines of force cut through the turns of the coil. Once they stop moving, the voltage drops to zero.
HELLO PEOPLE, This video is @ ACCURATE, basic, but Accurate. A coil moving in a magnetic field produces electricity -- Basic FACT. Don't laugh. U can move either the coil or the magnet. Turning it with your car's engine and voila! -- you have a generator or Alternator. Ta da! Now tell me, why don't they do that for Electric Vehicles? I.will tell you why -- Because the majority of people are unaware of the basics of electricity so they get away with it and call the knowledgeable objectors mad, conspiracy theorists and say out loud --;follow the science.
@@waynebart181 because you can never get back what you put in? Thermodynamics are tough I know. Just let the people that know what they're talking about talk about it. You just sit back and soak up the commercials and be a good little sheeple.
Faraday made significant contributions to the fields of chemistry and physics. Respect also goes to Maxwell, who provided us with information about the existence of electromagnetic waves. Today, we are aware of a variety of electromagnetic waves, including radiowaves, UV, IR, X, and so forth.
I understand that a coil plays an important role in designing many machines. When the coil is connected to a power supply, it converts electrical energy into a magnetic field. When a magnet is brought near the coil, an electromotive force (EMF) is induced in the coil. However, this EMF disappears when the magnet stops moving. To produce a continuous EMF, the magnet must keep moving, and this phenomenon is known as electromagnetic induction. This principle is utilized in numerous applications.
Waxaan fahamsanahay in gariiraddu ay door muhiim ah ka ciyaarto naqshadaynta mashiinno badan. Marka gariiradda lagu xidho koronto, waxa ay tamarta korontada u beddeshaa goob birlab ah. Marka magnet la keeno gariiradda agteeda, xoog elektromotive (EMF) ayaa lagu soo jiidaa gariiradda. Si kastaba ha ahaatee, EMF-tani way baaba'aysaa marka magnetku joojiyo dhaqdhaqaaqa. Si loo soo saaro EMF joogto ah, magnet-ku waa inuu sii socdaa, waxaana dhacdadan loo yaqaannaa induction electromagnetic. Mabda'an waxaa loo adeegsaday codsiyo badan.
Направление индукционного тока абсолютно неверно показано. Правильно показали как течет ток и его линии магнитного поля, если к катушке подключить батарею. А когда впихивается магнит стороной "S", вы изобразили направление индукционного тока в том направлении, при котором он создает магнитное поле, которое притягивало бы магнит. Нарушая правило Ленца и закон сохранения энергии, т.к. в вашем случае работа не совершается, а индукционный ток появляется. Учебник в руки, автор видео.
@@mastercraft888 Да. Понять закон электромагнитной индукции весьма не тяжело. Данная анимация, имея в наличии несколько ошибок, будет вводить людей, пытающихся разобраться в этой теме самостоятельно, в заблуждение.
Сделайте мигающую лампу и ускорение колебаний магнита до частоты 50(60) герц, с одновременным переходом мигания лампы в равномерное свечение. А в конце напишите 50(60) герц. Тогда каждой домохозяйке понятно будет, что такое переменный ток в розетке.
Instead of physically moving the magnet it is possible to induce a voltage simply by Powering and then cutting power this is how a transformer works using AC current.
Bro what, who told you that? My 4th edition of Electrical Transformers and Rotating Machines, has a much different answer; which is currently sitting right beside me.
It’s a good explanation. However a 10 turn copper wire coil and a small magnet moving that slowly will never provide enough power to light up that bulb!
-ve of Rate of change of magnetic flux w.r.t time is called emf induced 😊. Founded by faraday accidentally and correctd by lenz. ~ just a revision for jee aspirants ❤
تخيل ان هذا يدرس بالثانوية في العراق!! وانا ادرسه الان ليس هذا فقط بل حتى قانون لينز و تجربة هنري وغيره من الامور هههه حتى النظرية النسبية لاينشتاين ندرسها هم لا اعلم ماذا ابقو للجامعة نحن حقاً شعب مذهل وذكي❤ رغم الصعاب نتقدم
Same principle. Electric motors and turbine generators are a more complex version of the same idea. Keep searching, there are great explanations on TH-cam.
Emf is short for electromotive force. Simply put, it's the voltage that is induced by a magnetic field moving near a conductor. The loops of the wire increase the effect. Putting something ferromagnetic like iron in the center of the loops greatly increases the effect. So now we can understand that a voltage is generated by moving a magnetic field in the presence of an electrical conductor, we can begin to understand how electrical generators are made. The work on these concepts. There is also a flip side to this. Not only does a magnetic field induce an emf into a conductor, but an electrical current flowing through a conductor creates a magnetic field around that conductor. So now we can create magnets with wire and electricity. This has almost limitless applications, primarily motors and transforming voltage. The uses of inductors in electronic components are invaluable as they work as filters and in conjunction with other components like capacitors, can create oscillator circuits and all various kinds of electronic circuits. This is largely due to the nature of the voltage induced with relation to the current flowing, which is that it produces a current whose magnetic field opposes the change that produces it. The emf is basically trying to oppose any change in current flow. When the magnetic field collapses around the conductor, the magnetic field induces a counter emf that tries to oppose any change. This opposition to change in current flow is a form of resistance in an electrical circuit, one that is only presence in AC circuits called inductance reactance.
@@luciddream2033 Inductive reactance is really interesting. If you measure the DC resistance of a transformer winding, for example, it only measures a few ohms. Most of the resistance is actually from inductive reactance and only appears when the coil is powered with alternating current! I always thought that was so weird and fascinating.
How do magnets work? The magnet consists of concentric clockwise and counterclockwise dipole rings that extend from one pole to the other over the entire body of the magnet. Dipole rings in the same direction attract each other, and dipole rings in opposite directions repel each other. Likewise, currents in the same direction attract each other and currents in opposite directions repel each other. An electric current can induce dipoles in a magnetic material to form dipole rings. Moving magnets can induce electrons in a conductor to produce an electric current. Since a dipole ring has two magnetic poles, clockwise and counterclockwise, there cannot be a single magnetic pole. Why deleted my comment?
if you put a ferrous metal cylinder instead of a magnet inside that coil and apply a voltage at the coil terminals, then travel will be induced in the cylinder. That’s how solenoid switches work. A solenoid coil is energized by the 12V battery when you push the button to start an internal combustion car engine…the starting solenoid coil energizes and motion is induced in a metal cylinder housed inside the starting solenoid coil…when the cylinder has traveled to its new position, it closes a set of +/- contacts that complete a circuit between the starting motor and the 12 volt dc battery. This apparatus typically delivers 200 or 300 cranking amps from the battery to the starting motor to turn the crank shaft (every car battery has a ‘cranking amps’ rating). Once engine ignition has occurred, an automatic switch operates to disconnect the starting solenoid coil from the 12V battery supply…the metal cylinder travels back to its rest position…and the mechanically operated +/- contacts separate to disconnect the starting motor from the 12V battery wear a seatbelt
You could also put the coil around the magnet ( not moving . Stationary ) and then wave a piece of metal in front of it and that will also generate an electric current due to the waving metal moving through the field and inducing a current in the coil. Then viola ! You have an electric guitar 🎸 and the metal you waved across the coil and magnet ( “ pickup “) was was the metal string if the guitar
I subscribed straight away solely because you moved the magnet and not pretend to have discovered some free energy perpetual motion machine 😛😂(like others do)
Lenz's law is a physics law that states that the polarity of an induced electromotive force (EMF) is such that it produces a current that opposes the change in magnetic flux that produced it: Explanation When a magnetic field changes, the induced current creates a magnetic field that opposes the initial changing magnetic field. This is because the energy in the induced current must come from somewhere
And because the magnet is being moved back and forth it creates an alternating magnetic field and therefore an Alternating Current or AC and the speed at which the magnet moves determines the Frequency hence things like Synchronous and Asynchronous Motors
Transformers don't have moving parts, just primary and secondary coils, mounted on a metal core. The alternative current " travelling" through primary coil, changing direction 60 times per second, induces electric current into the secondary coil.
Thank you so much for watching 😊, please visit my channel for more such videos 😊.
You script has terrible grammar. Please use Ai to proof read your script. You use the wrong words and miss out words.
This makes you appear untrustworthy and unprofessional.
Wow
This will generate AC current
Thanks bro
Thanks
Bro faraday was dank af
Indeed he was
its not Helpful unless you can put Round coils on Round Plate made of anything,you place the Magnet on the Another Round Plate on both Sides,from Smaller to Bigger Magnets side by Side Covering Whole round Plate and then have Small coils Cover the whole Surface area of Another Plate on another plate,and have 2 placed Near the magnetic one.Have the plate with Magnetic Rotate fastly and the Magnets will Give a Illusion of Moving Perpendicularly just like in this Video and you got a Strong Electric Current being produced out of it,you can use this principle in reCharging Electric bikes....while they Move.
WHAT WAS MICHAEL FARADAY DOING WITH MAGNET AND THE COIL TO DISCOVER THIS 💀?
💀
That's exactly what I was thinking 😅
😂
That's exactly what I was thinking 😅
To impregnate with the Faradays constant 💀
Hats off to Michael Faraday, the first to discover this phenomenon. All the more impressive when you realize the voltmeter wouldn't be invented for another 50 years.
Michael Farady was found it as induction, but tesla used the same type method and invented the AC current.
@@Superguru123 No Tesla did not discover or invent AC current, check your sources. AC current was known since at least 1832 when Pixii was developing the electrical generator.
Tesla developed a practical AC motor by using 2-phase AC in 1887. Ferraris did the same thing two years earlier in 1885. Westinghouse bought both patents.
The Europeans were ahead in AC transmission. Italy, Hungary, England all had short distance AC systems t and finally Germany, 1891, the first long distance transmission. 175 miles.
Inventors of AC Current

If pixii invented the AC current then who are oblathy and William which also invented the AC current
I'm not aware of anyone named Pixii who is credited with inventing AC current. The invention of AC current is generally attributed to Nikola Tesla and George Westinghouse in the late 19th century. It's possible that Oblathy and William are not well-known figures in the history of AC current, or that there is a mistake or confusion in the information you have been provided.

Hippolyte Pixii
Hippolyte Pixii was a French instrument maker who built one of the first generators of alternating current (AC) in 1832, several decades before the more well-known AC systems developed by Nikola Tesla and George Westinghouse. Pixii's generator used a revolving magnet to create an alternating current in a coil of wire, which was then used to power a small motor. This early AC generator was not practical for large-scale power generation and distribution, but it was a significant step in the development of AC technology.

Otto blathy in William Stanley Jr
Otto Blathy and William Stanley Jr. were both inventors and engineers who made significant contributions to the development of alternating current (AC) technology in the late 19th and early 20th centuries.
Otto Blathy was a Hungarian engineer who invented an AC power system using a rotating transformer, which he patented in 1891. He also developed a system for the distribution of AC power over long distances, which was known as the Blathy system.
William Stanley Jr. was an American inventor and electrical engineer who developed an improved transformer for use in AC power systems. He was the first to wind the transformer coils around an iron core, which greatly increased their efficiency. He also developed the first practical system for the distribution of AC power to multiple customers, known as the Stanley Arc Light System, which was used to supply power to street lights in Great Barrington, Massachusetts, in 1886.
Both Blathy and Stanley's contributions were significant in the development of more efficient and practical AC power systems, which laid the foundation for the widespread use of AC power in industry and homes.

So who invented AC
The invention of alternating current (AC) can be attributed to a number of people who made significant contributions to the development of AC technology in the late 19th and early 20th centuries.
One of the earliest known generators of AC power was built by French instrument maker Hippolyte Pixii in 1832. He used a revolving magnet to create an alternating current in a coil of wire, which was then used to power a small motor. However, this early AC generator was not practical for large-scale power generation and distribution.
Later on, in the late 19th century, Nikola Tesla and George Westinghouse were instrumental in the development and popularization of AC power. Tesla developed a system of polyphase alternating current generators, motors, and transformers that made AC power distribution over long distances both practical and economical. Westinghouse, who had acquired the patents for Tesla's system, then developed the first practical system for the widespread distribution and use of AC power in industry and homes.
Additionally, many other inventors and engineers such as; Otto Blathy, William Stanley Jr., and others made significant contributions to the development of AC technology. They inventing transformer, long distance power transmission and distribution system, which made AC power more efficient, practical, and widespread.

So pixii is the main inventer?
Hippolyte Pixii is considered to be one of the early pioneers of alternating current (AC) technology, as he built one of the first generators of AC power in 1832, several decades before the more well-known AC systems developed by Nikola Tesla and George Westinghouse. His generator used a revolving magnet to create an alternating current in a coil of wire, which was then used to power a small motor. However, Pixii's early AC generator was not practical for large-scale power generation and distribution.
That being said, while Pixii's early AC generator was an important step in the development of AC technology, Tesla and Westinghouse are generally considered to be the main inventors of AC power, as they developed the first practical systems for the widespread distribution and use of AC power in industry and homes. Their work on polyphase generators, motors, and transformers, made AC power distribution over long distances both practical and economical.
It's important to note that the development of any technology is a process and many people have contributed to it over time.
@@queyzarimplode8411 That is a lot of cut of cut and paste 😅.
Since AC is a phenomenon, I'd say it is more a discovery than invention. Pixii seems to have been the first to notice it, as AC occurs when magnetic fields are rotated.
That's A.i lol, but hey, I didn't mind because I was just being honest anyway of the copy n paste 😂 n hey that was only one copy n paste. Certain ai can't hold a conversation nearly at all but I found one that keeps last conversations no matter the subject, I found it hard to find one that don't leap off subject...but I did. It's pretty cool, he tried hiding some points on electrical components n there ability but in the end he agreed after disagreeing lol
video reached the wrong audience
😂
If you demostrated such movement with ur finger?
ههههههههههههه😂😂😂😂😂😂😂😂😂😂😂😂😂😂
Fr😂
Pfp says it all 💀
Most important video on the internet if u understand it's importance
Understand😁. Huh.... Understand 💀💀
Exactly, everything that uses hydro electricity now including the phones we are holding wouldn't exist if this principle (law of nature) didn't exist, maybe they would be using fuel as their energy source🤔. Or solar.
Yes,, the secret of the universe is in this
Multumim prietene. La mai multe videoclipuri deastea. Doamne ajuta!
im a mature adult. im a mature adult. im a mature adult.
You are a *kid*
Yes u a kid
You are a kid
Yes u a kid
Right? This is a horrible sex ed class. This coil and magnet are used in making of many machines so dont stop moving your magnet or the coil wont be able to flow your emf in both the front and reverse directions. You need to give the coil all of that emf if you want it to fill up that light bulb full of light. Magnet in motion +coil= 18 yrs of electtomagnetic Connection.
the coil 9 months later : 🤰
edit: congratulations its twins a boy and a girl
Bruhh.....dirty minded 😂
After 10 months : 🐣🤱🏻👩🏻🍼
😑 dirty minded people.
🤨📸
Magnet will become father
I wonder how many people stopped watching this to go and find out what EMF is.
🤣
I'm guessing that either, A. The fall into our eye-rolling category, or B. They're not the sort that's bright enough to be curious, and accept anything they see on TH-cam as gospel.
Bro ik, emf is electro magnetic force... And better find a good vidro
@@studyguy2750 EMF can stand for either electromagnetic field, or electromotive force (voltage).
Electro magnetic frequency of something
Somebody should mention that this is how a generator produces electricity, magnet spinning inside coils of wire. Maybe the single most important technology of the 20th century. Thanks Faraday!
Magnet moving produces current..can current then be used to move magnet? Perpetual motion?
@@jimberlygridder183 yes, except frictional forces at the molecular level will always use up some energy and eventually cause the movement to stop. There is no free lunch.
For the autistic audience down here, I would like to tell that Michael Faraday was working in his lab and he just threw a piece of magnet which passed through a coil connection and suddenly the circuit started working. Later Lenz simplified the reason of such phenomenon which is due to change in magnetic flux.
So in order to induce current in a coil, the magnet should continue moving? Or is there any other way to induce current with a change in magnetic flux without having to manually move the magnet
Pls answer my question , I have to write an exam about this
@@LearnLearn-t7b Look buddy, if you have a coil, then you have to pass a magnet through it (to and fro) to induce a voltage in coil which generates the current. Suppose you are facing the North ( N ) side of the magnet to the coil, coil will induce a current alike the north one because the coil has tendency to resist the change ( north and north will repel). And if you pull away the magnet in the same configuration then the current induced in the coil will be with respect to a south one ( as N will be moving away from coil and S will attract it ).
The amount of voltage that will be inducing in the coil will be equal to -d/dt (magnetic flux)
{you can understand this as change of magnetic field lines passing through the coil per unit change of time}
FOR PRACTICAL UNDERSTANDING SEARCH THIS ON TH-cam, YOU WILL FIND SOME USEFUL ANIMATIONS.
1 - why autistic ?
2 - to create a continus magnetic field with a coil, you must give a continus current into the coil
But, to create voltage into a coil, you must have a variation of magnetic field. So if you use a magnet to create magnetic field, you must keep moving it to create voltage to the coil.
It is how most electricity is produced : thermal, nuclear, hydrolic "centrals" (I'm not English native so I'm not sure for this word). And with wind too. (Solar panel are very different is it an exception)
And if you create a magnetic field by putting a current in a first coil and you want to convert the magnetic field to voltage with a second coil, you must give an alternative current to the first coil, so it creates "alternative" magnetic field so it create voltage to the second coil. It's how the transformers works : two coils with metal to help magnetic field transmission
@@LearnLearn-t7b
I've answered you
@@lavandin7197 thanks 😊
Thank you. Explanation was clear and concise
It’s literally a robot reading script they stole 💀
At start it is big misteake, coil with battery works like resistor only AC voltage generates magnetic fiekd.
আগাও নিজের বাড়ি যাও
School can never beat this kind of teaching
مختصر :
التغير في خطوط الفيض المغناطيسي الي تخترق الملف السلكي يولد تيار محتث وقوة دافعة كهربائية محتثة في دائرة كهربائية مغلقة ( الملف السلكي و مقاومة المصباح ) وهذا التغير في الفيض يتم بتقريب وتباعد الساق المغناطيسية عن الملف
لك عاش طالب السادس 😂😂😂
وانا الي كنت بقول أحول الفيزيا عربي ع اساس افهم
أتاريها مش فارقة!
لا عزيزي مين يجيب التيار المحتث
حرفيا التعليق و ردوده الوحيدين ذوي عقل في التعليقات
انت طالب سادس تدرس على حسين محمد فيزياء مو
This illustrates that the voltage is generated in the coil only when the magnetic lines of force cut through the turns of the coil. Once they stop moving, the voltage drops to zero.
Nice work. Visualising the science into 3D animation. Weldone 😊
Great animation making understand the concept easy
Fun fact: Michael Faraday discovered this during puberty
WTF
@@TheoDoUniverso got a problem
@@grufflantian ?
@@TheoDoUniverso you are weirded out by a dicovery
wow. Amersing
"copper coil and her magnet senpai" anime tittle
I read “tittle” SO wrong
HELLO PEOPLE, This video is @ ACCURATE, basic, but Accurate. A coil moving in a magnetic field produces electricity -- Basic FACT. Don't laugh. U can move either the coil or the magnet. Turning it with your car's engine and voila! -- you have a generator or Alternator. Ta da! Now tell me, why don't they do that for Electric Vehicles?
I.will tell you why -- Because the majority of people are unaware of the basics of electricity so they get away with it and call the knowledgeable objectors mad, conspiracy theorists and say out loud --;follow the science.
Did you just assume the coils gender?
@@waynebart181 because you can never get back what you put in? Thermodynamics are tough I know. Just let the people that know what they're talking about talk about it. You just sit back and soak up the commercials and be a good little sheeple.
@@waynebart181 also they do that. It's called a hybrid.
I agree thanks for the explanation about induction
Multumim prietene. La Mai multa videoclipuri deastea. Doamne ajuta!
🤗
bahut achha hai
Faraday made significant contributions to the fields of chemistry and physics. Respect also goes to Maxwell, who provided us with information about the existence of electromagnetic waves. Today, we are aware of a variety of electromagnetic waves, including radiowaves, UV, IR, X, and so forth.
Thank you sir really helpful🎉🎉🎉🎉
the same principle is used in harddrives at data centers for cloud storage.
Whatttttt
And MRI imaging
@@neoachemist74but I thought they use opposite of this phenomenon
The electromagnetic induction is the craziest invention everrr... And was founded by Michael Faraday🔥🔥.
It was a discovery.
Wonderful!
I love this video.
What tool/software are you using for the animations? I would love to use this in some of my videos!
Amazing❤❤
I understand that a coil plays an important role in designing many machines. When the coil is connected to a power supply, it converts electrical energy into a magnetic field. When a magnet is brought near the coil, an electromotive force (EMF) is induced in the coil. However, this EMF disappears when the magnet stops moving.
To produce a continuous EMF, the magnet must keep moving, and this phenomenon is known as electromagnetic induction. This principle is utilized in numerous applications.
Waxaan fahamsanahay in gariiraddu ay door muhiim ah ka ciyaarto naqshadaynta mashiinno badan. Marka gariiradda lagu xidho koronto, waxa ay tamarta korontada u beddeshaa goob birlab ah. Marka magnet la keeno gariiradda agteeda, xoog elektromotive (EMF) ayaa lagu soo jiidaa gariiradda. Si kastaba ha ahaatee, EMF-tani way baaba'aysaa marka magnetku joojiyo dhaqdhaqaaqa. Si loo soo saaro EMF joogto ah, magnet-ku waa inuu sii socdaa, waxaana dhacdadan loo yaqaannaa induction electromagnetic. Mabda'an waxaa loo adeegsaday codsiyo badan.
Lmao, did you generate this with chatGPT
Very useful to us. Thank you.
bar magnet down bad💀
bro 💀
Nahhh 💀
bros brain is bad
Love this demonstration. Thank you for sharing.
Направление индукционного тока абсолютно неверно показано. Правильно показали как течет ток и его линии магнитного поля, если к катушке подключить батарею. А когда впихивается магнит стороной "S", вы изобразили направление индукционного тока в том направлении, при котором он создает магнитное поле, которое притягивало бы магнит. Нарушая правило Ленца и закон сохранения энергии, т.к. в вашем случае работа не совершается, а индукционный ток появляется. Учебник в руки, автор видео.
Ok but the but the concept is still true. Anyone can reproduce this effect with a magnet, right size wire, and led bulb.
@@mastercraft888 Да. Понять закон электромагнитной индукции весьма не тяжело. Данная анимация, имея в наличии несколько ошибок, будет вводить людей, пытающихся разобраться в этой теме самостоятельно, в заблуждение.
@@frostviger1512
E6u
,
Да такое даже детям для образования и развития нельзя показывать 🤦🏻♂️ сука автор дебил недоразвитый
Я всегда путаю эти правила левой руки или правой ноги.
Amazing ❤
Сделайте мигающую лампу и ускорение колебаний магнита до частоты 50(60) герц, с одновременным переходом мигания лампы в равномерное свечение. А в конце напишите 50(60) герц. Тогда каждой домохозяйке понятно будет, что такое переменный ток в розетке.
Thank You for this Illustration.❤❤❤
Instead of physically moving the magnet it is possible to induce a voltage simply by
Powering and then cutting power this is how a transformer works using AC current.
Bro what, who told you that? My 4th edition of Electrical Transformers and Rotating Machines, has a much different answer; which is currently sitting right beside me.
So simple explanation, thanks
Very helpful for science students 🫡
Loved the way you presented the information.
I was headed to the comments to add my own magnet having sex with coil joke, then saw all the magnet having sex with cool jokes. Well played.
Means people already beat you to it
It's never too late. Just say the magnet owes child support, now
@@tintinfan007very astute
here's to those who have been watching this for minutes just to read the comments 🍿 🍿 🍿 🍿 🍿
Bro, I needed this last month when I was studying this. If I saw this video before my exam. 100% I would be the highest in my class.
who doesent know that allready
@@jac2206 😂
Sarcasm or wot?😂
Don't go to class high
@@jaredb9523bruh fr what he just said
Ang ganda nang Videos na Ito maraming Tip's natutunan ko good Evening
Di gaya ng mga indiano, nakatago ang battery.
Awesome animation! What software is used to make it?
Did you discover the software?
@@academiadaeletricidade did you ?
@@truth2 Blender
@@academiadaeletricidade can we run in Android ?
@@truth2 No! Windows or Mac
Very good animation and understandable video
hope more to come
Very knowledgeable video sir 😊😊👍👍
The product of patience, effort and genius equal to Michael Faraday!
My physics teacher i dont know why but loves this type of videos
The main reason for emf generated is changing of magnetic flux
(emf) e= -d(phi) /dt
Wonderfully explained❤❤❤❤
School❌
TH-cam✅
Thanks for this knowledgeable video
It’s a good explanation. However a 10 turn copper wire coil and a small magnet moving that slowly will never provide enough power to light up that bulb!
Yeah its just for the sake of argument
@@algirdasltu1389. Yes “For illustration purposes only” 😂
Thank you for the explanation ❤
i appreciate how beautifully you clarify concepts in shorts
-ve of Rate of change of magnetic flux w.r.t time is called emf induced 😊.
Founded by faraday accidentally and correctd by lenz.
~ just a revision for jee aspirants ❤
excellent video
Wow.very.well.study.exelant.mind❤🎉
Thanksssss for this short and useful video
تخيل ان هذا يدرس بالثانوية في العراق!!
وانا ادرسه الان ليس هذا فقط بل حتى قانون لينز و تجربة هنري وغيره من الامور هههه حتى النظرية النسبية لاينشتاين ندرسها هم لا اعلم ماذا ابقو للجامعة
نحن حقاً شعب مذهل وذكي❤ رغم الصعاب نتقدم
Beauty of Physics
wow so great work.
So that is how AC current generated
Same principle. Electric motors and turbine generators are a more complex version of the same idea. Keep searching, there are great explanations on TH-cam.
yes This principal is used in our generators which generate AC current
@@Player-pj9kt yes got it, but how its different from DC
@@Superguru123 DC is at a constant voltage, ac is not
@@Player-pj9kt I m not talking about that how the magnetic fields are playing to generate DC.
تسمى هذه الظاهرة التحريض كهرومغناطيسي
وتنتج التيار الكهربائي متناوب ورمزه Ac
some more applications of emf for better understanding
Induction motors ,transformers,induction heaters...etc are also based on principle of Electromagnetic induction
Emf is short for electromotive force. Simply put, it's the voltage that is induced by a magnetic field moving near a conductor. The loops of the wire increase the effect. Putting something ferromagnetic like iron in the center of the loops greatly increases the effect. So now we can understand that a voltage is generated by moving a magnetic field in the presence of an electrical conductor, we can begin to understand how electrical generators are made. The work on these concepts.
There is also a flip side to this. Not only does a magnetic field induce an emf into a conductor, but an electrical current flowing through a conductor creates a magnetic field around that conductor. So now we can create magnets with wire and electricity. This has almost limitless applications, primarily motors and transforming voltage. The uses of inductors in electronic components are invaluable as they work as filters and in conjunction with other components like capacitors, can create oscillator circuits and all various kinds of electronic circuits. This is largely due to the nature of the voltage induced with relation to the current flowing, which is that it produces a current whose magnetic field opposes the change that produces it. The emf is basically trying to oppose any change in current flow. When the magnetic field collapses around the conductor, the magnetic field induces a counter emf that tries to oppose any change. This opposition to change in current flow is a form of resistance in an electrical circuit, one that is only presence in AC circuits called inductance reactance.
@@luciddream2033 Inductive reactance is really interesting. If you measure the DC resistance of a transformer winding, for example, it only measures a few ohms. Most of the resistance is actually from inductive reactance and only appears when the coil is powered with alternating current! I always thought that was so weird and fascinating.
@@ct6502-c7w you are 100% correct
Nice explanation !
How do magnets work?
The magnet consists of concentric clockwise and counterclockwise dipole rings that extend from one pole to the other over the entire body of the magnet.
Dipole rings in the same direction attract each other, and dipole rings in opposite directions repel each other. Likewise, currents in the same direction attract each other and currents in opposite directions repel each other.
An electric current can induce dipoles in a magnetic material to form dipole rings. Moving magnets can induce electrons in a conductor to produce an electric current.
Since a dipole ring has two magnetic poles, clockwise and counterclockwise, there cannot be a single magnetic pole.
Why deleted my comment?
if you put a ferrous metal cylinder instead of a magnet inside that coil and apply a voltage at the coil terminals, then travel will be induced in the cylinder. That’s how solenoid switches work.
A solenoid coil is energized by the 12V battery when you push the button to start an internal combustion car engine…the starting solenoid coil energizes and motion is induced in a metal cylinder housed inside the starting solenoid coil…when the cylinder has traveled to its new position, it closes a set of +/- contacts that complete a circuit between the starting motor and the 12 volt dc battery.
This apparatus typically delivers 200 or 300 cranking amps from the battery to the starting motor to turn the crank shaft (every car battery has a ‘cranking amps’ rating).
Once engine ignition has occurred, an automatic switch operates to disconnect the starting solenoid coil from the 12V battery supply…the metal cylinder travels back to its rest position…and the mechanically operated +/- contacts separate to disconnect the starting motor from the 12V battery
wear a seatbelt
The coil pressed charges against the magnet 😊
. . . wow - cutting edge educational video . . .
Woulda made more sense if the bulb pulsed along with the magnet motion to show the electrical signal cycloid
You are the best from My techer 1hour lecture
Is this how a generator kinda works?
sort of
Whoa.... i really studied this topic at my academy yesterday and here comes this short recommended 😮
Bro found a new way to make more coils
When coil is moved toward the coil it repels it but when it is moved away it attracts it.
Moral: aega toh ane nahi dega, jaega toh jane nahi dega!!
You could also put the coil around the magnet ( not moving . Stationary ) and then wave a piece of metal in front of it and that will also generate an electric current due to the waving metal moving through the field and inducing a current in the coil. Then viola ! You have an electric guitar 🎸 and the metal you waved across the coil and magnet ( “ pickup “) was was the metal string if the guitar
good job man❤
Please, make me your student😍😍😂
The coil is called solenoid and if we put the magnet untouched, changing the area of solenoid also induces emf in it.
لن يتم توليد بهذه الطريقه يجب تحرك مخناطيس شمالي جنوبي داخل الملف
مايبغا يحركه داخل الملف عشان بعض الشباب مخهم مو نظيف
@@RakoGamesOfficialانت وصفت حرفيا نص التعليقات
This is an Induced EMF which is in the direction of the motion of the magnet..
This is our Physics curriculum this year 😅😂
قانون لنز🤣🤣
@@khaledabosere3684 للأسف 😢😂
@@dr.muhammad1 ربنا معاك يا محمد اوعى تهمل بس
انا مش هقولك دى فرصتك الوحيدة بس اللى اقدر أكدهولك هو ان دى اهم فرصة هتجيلك
Great idea atsup!
I subscribed straight away solely because you moved the magnet and not pretend to have discovered some free energy perpetual motion machine 😛😂(like others do)
Lenz's law is a physics law that states that the polarity of an induced electromotive force (EMF) is such that it produces a current that opposes the change in magnetic flux that produced it:
Explanation
When a magnetic field changes, the induced current creates a magnetic field that opposes the initial changing magnetic field. This is because the energy in the induced current must come from somewhere
Generators in a nutshell
And because the magnet is being moved back and forth it creates an alternating magnetic field and therefore an Alternating Current or AC and the speed at which the magnet moves determines the Frequency hence things like Synchronous and Asynchronous Motors
I have an idea.. If suddenly theres a black out, ill just run my steam engine made out from scratch and use that coil to generate electricity :3
woah u have a steam engine?? that’s awesome!
the field must move, these are not straight lines, these are spirals, it’s like a smoke ring❤
It's called solenoid in class 10😂😂😂😂😂
These videos are great!! I just subscribed!!
Easy explained for a complicate theory. Well done!!
Good 😊😊 Ma Sha Allah
Theses videos are what i needed, not DeVry. Why didn't anyone show me this 25 years ago?????
Please make more videos like this
Very enlightening 💜 Thank You !
Transformers don't have moving parts, just primary and secondary coils, mounted on a metal core. The alternative current " travelling" through primary coil, changing direction 60 times per second, induces electric current into the secondary coil.