Your videos will last forever, Eugene. You are helping people all over the world to understand physics better. Keep up the good work! I love your videos!!
@@EugeneKhutoryansky I dare you to make a video about parametric excitation of electrical oscillation where the inductance of an inductor part of the LC tank circuit with initial voltage, is oscillated with twice the resonant frequency, either mechanically or electrically with perpendicular field.
This video inspired me to do a project today: build a simple unpowered hysteresis tool for magnetizing/demagnetizing the tips of screwdrivers. I love animated physics, but I find it helpful to also build or do something related.
That was an exceptionally well animated and well described educational piece on magnetic fields, magetization, demagnetization and inductance, as are all your other videos about all other physics subjects! I already had a fairly solid understanding of many fields of physics, but these videos give me a depth of understanding that transcends even the deepest literary explanations! I find myself rewatching them from time to time, not because I forget... but because I remember how well made they are, and want to enjoy them again!
I remember like it was yesterday the physics professor at the engineering university I went trying to explain this subject with a way more theoretical approach and at the end of the lesson I only had these equations and demonstrations without really knowing what the hell this was all about. Years later I see this video and now everything is so damned clear. I really love your videos and I really wanted them during my university years.
Thanks for providing such an awesome visual resource! Taking the second half of upper-division electrodynamics at university right now and it's my least favorite part of physics to study (except possibly Thermo) but these videos help make it more bearable.
I really respect and admire your videos like none other! The level of conceptual clarity and understanding attained by seeing your videos is just exceptional and class apart! Thank you so much for helping us such profoundly with your talent!
I teach for an electrical apprenticeship program and use these videos teaching electrical theory. I’ve never found another platform that makes these concepts more simple to understand. Thanks for the amazing animations
I have become a teacher of electrotechnics at secondary industrial school this year. My goal is to spread the knowledge and wisdom as well as this channel that I followed through all 5 years in the university. Bless you, Eugene :)
@@EugeneKhutoryansky what about a video explaining the mechanics behind Pauli exclusion principle? A lot of people try to say that there isn't any repulsion going on, instead that it's merely Pauli exclusion, and I think that breaks logic because the particles don't care nor know that they're 'forbidden' to be near or in the same state, some type of mechanism must prevent one particle from dropping to a lower state that's already occupied by another particle, and that seems like a repulsive effect, especially in obvious cases like where they repel the force of a collapsing star.
Marino, I have a detailed explanation of the mechanics behind the Pauli Exclusion principle and the apparent repulsion in my video at czcams.com/video/Zlp2GQ3OLeE/video.html
Nice video, I had to replay many sections to align my theoretical knowledge to the practical demonstration. Iron losses and copper losses could also have been added. Thanks 4 the video.
I am a student of electrical engineering and I have seen these graphs before, but I have never really understood what they meant. Thank you for another moment of enlightenment.
Magnetic fields don't like to change and resist it. When they do change, it's slowly and it heats up. My grandfather is a magnetic field! If Jeopardy is on, he is stuck to the TV, but when the chatty neighbor comes over to watch with him, his neck starts steaming and he's gone! He even keeps little magnets in his pockets, "just in case" he might need one. No one knows what for. He hums that tune, the waltz, Blue Danube? when he's concentrating (in the restroom) on something
Thanks for explaining one of the most counterintuitive, complex core concept of universal invisible physical forces hidden fields entangled fluxes governing flows within, between and across quantum technology singularity realms at helm of wonderful awe inspiring depth, width, height and length in 4 dimensional Spacetime Ordered Spheres Influencing both microcosm and macrocosm levels.
Great video. Could you do a similar video but with superconductors and the magnetic fields they produce in relation to current and voltage. Unless you have already done this subject. Another idea is to do a video on the geometry of magnetic fields by altering the shape of the flux material in donuts, squares, lines and the interaction of two magnetic fields geometry.
I love your content. Your explanations are always marvellous and your animations are constantly getting even more superb. Thank you for being so passionate. Keep it up Eugene.
And the funny stuff is that exist materials created in lab that exhibit the reverse of an hysteresis loop. The material doesn't lost energy but gain it! It happen in some specific condition such as low temperature and so on. The effect is called "inverted hysteresis" or "proteresis", the loop look like the same as a regular one but travel in reverse!
In the electrical power industry, instrument transformers to measure current can have large heavy steel cores. The amount of magnetic field in the steel when there is no current flowing is called the remenance factor, and the core gets demagnetized after testing. I know because I test large current transformers that can be 3 meters tall and weigh hundreds of kg.
Great video Eugene ! You could continue this topic and show how a high reverse voltage is created when the current is abruptly stopped and makes a flyback effect. 😁
I deal with hysteresis every day in the valves that i assemble and calibrate and test . My question is ... how would i reduce hysteresis ? I have a coil and a frame magnet thats magnetized . I have a downward plot and a upward plot . And we have a customer driven spec. To be under 1.8 milliamps.
Thanks for this explanation!! I guess an air core inductor will increase it's B-field (low) with increasing current...until the coil just burns up...@@EugeneKhutoryansky
Please make some more videos explaining about heat transferring, the kinetic-molecular theory and 1st law of thermodynamic, I think there are not enough videos of that topics here. Your other videos about electromagnetics and maths are very intuitive, thank you for that
I already have several videos on that. For example, my video on Molecular Temperature & Degrees of Freedom is at czcams.com/video/nqGtji3ZjoI/video.html
I have recently completed my Masters Degree in Electrical Engineering . I have learnt many things from your videos during my student life. Thank u so much for spreading the complex things in simple manner. Cheers :)
Egg laying hens are the worst treated of all farm animals, far more so than the animals raised for meat. For example, male chicks are thrown into a grinder, even at the "cage-free" egg farms which claim to care about animals (due to the fact that the male chicks will never lay eggs).
Hysteresis - the phenomenon in which the value of a physical property lags behind changes in the effect causing it, as for instance when magnetic induction lags behind the magnetizing force. Source, some random dictionary online.
Can you help me Why, when you have higher voltage you have lower current? Voltage is potential power? And current is the electron flow tru a circuit, right? I never could catch the flow of this one on school.
For a resistor or light bulb, a higher voltage gives a higher the current. However, what is going on here with the coil is that the voltage is proportional to the rate at which the magnetic field is changing.
Nice explantaion. Its not usual to see the exchanged energy as the orange highlighted areas. On minute 7:00 it could also be assumed that frequency is low so eddys are negligible
I have a number of videos on thermodynamics. My main Thermodynamics video, titled "Thermodynamics and the End of the Universe" is at czcams.com/video/GOrWy_yNBvY/video.html
Can you give more insight into inductors about why the inductor first opposes the current passing throught it and oce the current reaches a specific stable value why it opposes the current from reducing.... I think it has to do with the information that the extreme ends of the inductors first get the information of the circuit switch being turned on and off and the coils at the centre of the inductor can't get that information at that time i.e., it takes more time to get that information because information travels at exactly the speed of light... Anyway many people say that there is a great similarly between electric circuits and hydraulics ( analogy of current flowing through resistances with fluid flowing through pipes ) can you please make a video on this to get a better insight of voltage analogous to pressure and current analogous to volume flow rate of the fluid?
Inductors simply try to prevent the current flowing through them from changing. I have a video explaining inductors at czcams.com/video/ukBFPrXiKWA/video.html
Does this mean that if the magnetic field generated by the coil varies only between maximum and zero, no energy is lost to hysteresis because the energy is exchanged between the field and the magnetic domains in the orange section of the graph?
@@EugeneKhutoryansky , But in the video you said the orange areas correspond to the material's domains returning energy to the coil. If the electromagnet is turned on again without reversing polarity, surely the energy put back into the material would equal the energy gained when the electromagnet was turned off? I thought the area of the loop traced on a hysteresis curve was proportional to the energy lost, but if you just follow the top of the curve the area is zero and so no energy is lost, or am I missing something?
Your videos will last forever, Eugene. You are helping people all over the world to understand physics better. Keep up the good work! I love your videos!!
Thanks for the compliments. I am glad you like my videos.
I only press the like button because I don't have anything to give him.
Exactly what I think 👍
Cheers Bro 🍻
@@EugeneKhutoryansky I dare you to make a video about parametric excitation of electrical oscillation where the inductance of an inductor part of the LC tank circuit with initial voltage, is oscillated with twice the resonant frequency, either mechanically or electrically with perpendicular field.
@@EugeneKhutoryansky Proved holographic function not dx/dt if you interested connect with me. Alexey Kokh
This video inspired me to do a project today: build a simple unpowered hysteresis tool for magnetizing/demagnetizing the tips of screwdrivers. I love animated physics, but I find it helpful to also build or do something related.
That was an exceptionally well animated and well described educational piece on magnetic fields, magetization, demagnetization and inductance, as are all your other videos about all other physics subjects!
I already had a fairly solid understanding of many fields of physics, but these videos give me a depth of understanding that transcends even the deepest literary explanations!
I find myself rewatching them from time to time, not because I forget... but because I remember how well made they are, and want to enjoy them again!
Thanks for the compliments about my videos. I am glad you enjoy them.
I remember like it was yesterday the physics professor at the engineering university I went trying to explain this subject with a way more theoretical approach and at the end of the lesson I only had these equations and demonstrations without really knowing what the hell this was all about. Years later I see this video and now everything is so damned clear.
I really love your videos and I really wanted them during my university years.
This is a very common problem with the way physics and engineering are taught at the universities. I am glad you enjoy my videos. Thanks.
Eugene: *uploads new physics video*
Me: "Guys, drop whatever you're doing. We have a new priority."
The best physics channel in the world
Thanks for the compliment.
In the galaxy
@@gopalrajak8594 in the universe
@@sivaroy8424 in the multiverse
Thanks and thanks.
Great video about magnetic fields!
Thanks. I am glad you liked my video.
Always makes my day seeing your videos, Its a small pleasure but it really does make me smile everytime.
I am glad you enjoy my videos. Thanks.
Another amazing video! I like how the ferromagnet is split. Very educational!
Thanks.
太形象了,十分便于理解物理学原理,非常感谢你!
Absolutely Fabulous and Magnificent 👏👏👏
I am glad you liked my video. Thanks for the compliment.
Thanks for providing such an awesome visual resource! Taking the second half of upper-division electrodynamics at university right now and it's my least favorite part of physics to study (except possibly Thermo) but these videos help make it more bearable.
I really respect and admire your videos like none other! The level of conceptual clarity and understanding attained by seeing your videos is just exceptional and class apart! Thank you so much for helping us such profoundly with your talent!
Thanks for the compliments.
I teach for an electrical apprenticeship program and use these videos teaching electrical theory. I’ve never found another platform that makes these concepts more simple to understand. Thanks for the amazing animations
Thanks for the compliments.
In my opinion this is one of the best channels on the tube
Thanks.
@@EugeneKhutoryansky no thank you sir....madam .....uhhhh whatever you are..many hours watching and rewatching.
thank you for what you do !
Thanks!
Thank you for making physics a lovable science😍🥰
Thanks.
Love this channel!
Thanks.
You explained hysteresis perfectly, so even children can understand this complicated topic. Thank you
I am glad you liked my explanation. Thanks for the compliment.
All of your videos which I've seen are really helpful and excellent, thank you!
Thanks. I am glad my videos are helpful.
I have become a teacher of electrotechnics at secondary industrial school this year. My goal is to spread the knowledge and wisdom as well as this channel that I followed through all 5 years in the university.
Bless you, Eugene :)
Thanks. Congratulations on becoming a teacher.
Your contribution to the electrical engineering field is much appreciated.
Thanks.
Super video. Fantastic!
Thanks. I am glad you liked my video.
What a best explanation and demonstration
Thanks for the compliments.
High quality content 👌 do you think you could make a video about electromagnetic repulsion; and the force of repulsion in general?
Thanks. That is explained in my video on Maxwell's Laws at czcams.com/video/9Tm2c6NJH4Y/video.html
@@EugeneKhutoryansky what about a video explaining the mechanics behind Pauli exclusion principle? A lot of people try to say that there isn't any repulsion going on, instead that it's merely Pauli exclusion, and I think that breaks logic because the particles don't care nor know that they're 'forbidden' to be near or in the same state, some type of mechanism must prevent one particle from dropping to a lower state that's already occupied by another particle, and that seems like a repulsive effect, especially in obvious cases like where they repel the force of a collapsing star.
Marino, I have a detailed explanation of the mechanics behind the Pauli Exclusion principle and the apparent repulsion in my video at czcams.com/video/Zlp2GQ3OLeE/video.html
Excellent explanation
Thanks for the compliment about my explanation.
Fascinating...you have the best animation!
Thanks for the compliment about my animations.
I absolutely love your videos! If topic requests are welcome I would love to see more about solid state physics.
Thanks. I plan to do additional videos on solid state physics.
thank you for work!
Thanks.
Brilliant illustration of hysteresis while keeping the mathematics air tight. Amazing video.
Thanks. I am glad you liked my video.
This is honestly among the best youtube channels in the world
Thanks.
You must be kidding me, i was literally studying this for the first time, and here i got the best visual explanation possible. Thank You!!!
Thanks.
Nice video, I had to replay many sections to align my theoretical knowledge to the practical demonstration. Iron losses and copper losses could also have been added. Thanks 4 the video.
I really like ur video ...
Use to simply my doubts
Thnx Eugene 👍
I am glad you liked my video. Thanks.
This is a good video that I have not seen before that yet.❤
I am glad you liked my video.
The flux curved looked extremely similar to a currentdensity-voltage curve that models fuel cell performance. Very interesting!
Another great video Sir, pls make video on Quater Wave Line Resonator.
As a visual thinker words fail me to describe the greatness of your videos. You inspire me to one day help people understand neurophysiology
Thanks for the compliment about my videos.
Nice video
I am glad you liked it.
Nice one!!
Thanks.
Incredible videos incredible knowledge 👍👍🙏🙏🙏
Thanks for the compliment.
I am a student of electrical engineering and I have seen these graphs before, but I have never really understood what they meant. Thank you for another moment of enlightenment.
I am glad my videos are helpful and thank you for your very generous support on Patreon. Your support means a lot to me. I very much appreciate it.
Magnetic fields don't like to change and resist it. When they do change, it's slowly and it heats up. My grandfather is a magnetic field! If Jeopardy is on, he is stuck to the TV, but when the chatty neighbor comes over to watch with him, his neck starts steaming and he's gone! He even keeps little magnets in his pockets, "just in case" he might need one. No one knows what for. He hums that tune, the waltz, Blue Danube? when he's concentrating (in the restroom) on something
I like your grandfather, wise man.
Thanks for explaining one of the most counterintuitive, complex core concept of universal invisible physical forces hidden fields entangled fluxes governing flows within, between and across quantum technology singularity realms at helm of wonderful awe inspiring depth, width, height and length in 4 dimensional Spacetime Ordered Spheres Influencing both microcosm and macrocosm levels.
Thanks for this informative video
Thanks. I am glad you liked it.
Classical music is the music for doing physics. Great Video!
Thanks.
Do you know what piece is this?
Exactly the principle how core memory as used in early computers works.
Great video. Could you do a similar video but with superconductors and the magnetic fields they produce in relation to current and voltage. Unless you have already done this subject.
Another idea is to do a video on the geometry of magnetic fields by altering the shape of the flux material in donuts, squares, lines and the interaction of two magnetic fields geometry.
I will add that to my list of topics for future videos. Thanks.
i am myself a physics teacher. And your videos are amazing. Thanks!!
Thanks for the compliment.
Knowledgeable video. 👍👍👍
Thanks.
I saw this same wierd graph in my book .
Now I know what they mean. Thanks 👍🏻
I love your content. Your explanations are always marvellous and your animations are constantly getting even more superb. Thank you for being so passionate. Keep it up Eugene.
Thanks.
A video about the stability of aromatic and anti-aromatic rings would be cool
And the funny stuff is that exist materials created in lab that exhibit the reverse of an hysteresis loop.
The material doesn't lost energy but gain it! It happen in some specific condition such as low temperature and so on.
The effect is called "inverted hysteresis" or "proteresis", the loop look like the same as a regular one but travel in reverse!
Thanks so mutch
Thanks.
Congratulations for 900k subscribers
Thanks.
Excellent, again!
Thanks.
Thanks
You are welcome and thanks.
I co tu myśleć nad darmowymi źrodłami energii
Super kanał, szacuneczek dla animacji uwielbiam
Great animation ! .... congrats to the graphic artist.
Thanks for the compliment about my animation.
In the electrical power industry, instrument transformers to measure current can have large heavy steel cores. The amount of magnetic field in the steel when there is no current flowing is called the remenance factor, and the core gets demagnetized after testing. I know because I test large current transformers that can be 3 meters tall and weigh hundreds of kg.
Source of best visualization ❤️
Thanks for the compliment about my visualization.
Great video Eugene ! You could continue this topic and show how a high reverse voltage is created when the current is abruptly stopped and makes a flyback effect.
😁
I cover that in my video on inductors at czcams.com/video/ukBFPrXiKWA/video.html
Thank you ! Such a wonderful channel ! :)
These are great!
Thanks for the compliment.
So amazing editing. I contribute to your struggles.
girl ! the effort that u have put i can feel superb
It is compulsory to make a Voltage different in the helmholtz coil?
Best explanation ever
Thanks for the compliment about my explanation.
Thanks, i'm from Vietnam ^^
Thanks from India
es hermoosso, is beautilful ❤❤❤❤❤❤❤❤
Thanks.
I deal with hysteresis every day in the valves that i assemble and calibrate and test . My question is ... how would i reduce hysteresis ? I have a coil and a frame magnet thats magnetized . I have a downward plot and a upward plot . And we have a customer driven spec. To be under 1.8 milliamps.
Please what name of borgram
Can u plz make a video on the behavior of electron and how the flow of energy works 🙏.
I will be thankful to u forever .
Nice sir
Thanks.
I have always wondered if an air-core coil can EVER be "saturated"?
THANKS FOR THE OUTSTANDING VIDEO!!!!!
--dAle
Thanks. An air core can't be saturated, because it is already "saturated" to begin with.
Thanks for this explanation!! I guess an air core inductor will increase it's B-field (low) with increasing current...until the coil just burns up...@@EugeneKhutoryansky
Very nice 👌👍👍
Thanks.
Please make some more videos explaining about heat transferring, the kinetic-molecular theory and 1st law of thermodynamic, I think there are not enough videos of that topics here. Your other videos about electromagnetics and maths are very intuitive, thank you for that
I already have several videos on that. For example, my video on Molecular Temperature & Degrees of Freedom is at czcams.com/video/nqGtji3ZjoI/video.html
I have recently completed my Masters Degree in Electrical Engineering . I have learnt many things from your videos during my student life. Thank u so much for spreading the complex things in simple manner. Cheers :)
Congratulations on completing your Master's Degree. I am glad my videos have been helpful. Thanks.
Good job!!
Can you explain the navier stokes equations?
Thanks. The navier stokes equation is on my list of topics for future videos.
so that's how magnets are made
maybe off topic, but eugene, what are your exact thoughts about eggs as food?
Egg laying hens are the worst treated of all farm animals, far more so than the animals raised for meat. For example, male chicks are thrown into a grinder, even at the "cage-free" egg farms which claim to care about animals (due to the fact that the male chicks will never lay eggs).
Hysteresis - the phenomenon in which the value of a physical property lags behind changes in the effect causing it, as for instance when magnetic induction lags behind the magnetizing force.
Source, some random dictionary online.
"I'm gonna go get the papers, get the papers."
Even two halves of magnetic material feels attraction towards each other
Hope your doing well, long time.
Best
Thanks.
Can you help me
Why, when you have higher voltage you have lower current?
Voltage is potential power?
And current is the electron flow tru a circuit, right?
I never could catch the flow of this one on school.
For a resistor or light bulb, a higher voltage gives a higher the current. However, what is going on here with the coil is that the voltage is proportional to the rate at which the magnetic field is changing.
Great 👌👌👌
Thanks.
A goregous, visual explanation of the subatomic world. If only Maxwell could see what see, he would've been astonished.
Thanks.
Based video, my dude
From 1980 to 2008 I was designing magnetics and driving them with Unitrode devices.
You're still alive. cool. You can come out of isolation on Mercer island and drive magnetics with SiC devices now.
@@darrellhambley7245 I am 70 years old with tiny grandkids to take care of.... and I am in the top 1% of American net worth.
👏👏👏
Nice explantaion. Its not usual to see the exchanged energy as the orange highlighted areas. On minute 7:00 it could also be assumed that frequency is low so eddys are negligible
Thanks. I am glad you liked my explanation.
❤️
Why increase the current after the magnets are aligned? 0:26
Good video bhai ❤
Thanks.
Can you do a video about thermodynamics potential
I have a number of videos on thermodynamics. My main Thermodynamics video, titled "Thermodynamics and the End of the Universe" is at czcams.com/video/GOrWy_yNBvY/video.html
Can you give more insight into inductors about why the inductor first opposes the current passing throught it and oce the current reaches a specific stable value why it opposes the current from reducing.... I think it has to do with the information that the extreme ends of the inductors first get the information of the circuit switch being turned on and off and the coils at the centre of the inductor can't get that information at that time i.e., it takes more time to get that information because information travels at exactly the speed of light... Anyway many people say that there is a great similarly between electric circuits and hydraulics ( analogy of current flowing through resistances with fluid flowing through pipes ) can you please make a video on this to get a better insight of voltage analogous to pressure and current analogous to volume flow rate of the fluid?
Inductors simply try to prevent the current flowing through them from changing. I have a video explaining inductors at czcams.com/video/ukBFPrXiKWA/video.html
A humble request to you, can you please do a detailed video on transformer losses and equivalent circuit of a transformer..
I assume you are asking for the case of a non-ideal transformer. I have a video on ideal transformers at czcams.com/video/agujzHdvtjc/video.html
Does this mean that if the magnetic field generated by the coil varies only between maximum and zero, no energy is lost to hysteresis because the energy is exchanged between the field and the magnetic domains in the orange section of the graph?
Some energy is lost as heat. The amount of energy lost as heat is equal to the area inside the curve shown in the video.
@@EugeneKhutoryansky , But in the video you said the orange areas correspond to the material's domains returning energy to the coil. If the electromagnet is turned on again without reversing polarity, surely the energy put back into the material would equal the energy gained when the electromagnet was turned off?
I thought the area of the loop traced on a hysteresis curve was proportional to the energy lost, but if you just follow the top of the curve the area is zero and so no energy is lost, or am I missing something?