I wish I had such a teacher like him when I was young...He is so passionate to teach! He deserves much more viewers! I refer him all the time to ever want to understand science.
I am enlightened... I became so focused at one point, and lost myself so much in the joy of finally getting what this all meant, that I literally forgot my own existence for a while. You're the ONLY one Mr. Gibson. And you will never be forgotten. Thank you so so so very much.
Bow down to you sir. I am not a math guy. I was an average student in my school. The way you teach me. courage to learn again. Thank you so so so so so so much for your effort.
I've never seen such a science related lecture which is incredibly comprehensive like this in less than an hour. How can you integrate the simplest physics and the most advanced/complicated ones into one lecture? How can you REASONABLY link them to make it super understandable to average persons. Amazing! I wish there are more lecturer, teacher, tutor, professor, or whatever terms, like Jason Gibson in the world. Thank you and UA-cam!
I am speechless and in awesome struck almost as if an angel "opened my mind" to concepts I NEVER thought I'd be able to comprehend. You are the BEST Teacher EVER. I also learned that SIMPLE[ explanation]=GENIUS. BRAVO 😮🎉😮🎉
Thanks a lots sir for reeducating us ...i dont fully understand these things during my college time ..but still i graduated with a half cooked knowledge
Happily, I think I finally understand Maxwell's equations thanks to you, after many failures. But I have a question: From what I understand, equation number 3 creates equation 4 and vice versa. That is, it is a far field. Are these equations also valid for the near field? because the impedances at near field are different between Electric field and magnetic field.
This is an EXCELLENT comment. The short answer is the magnetic field lines will always form a closed loop. But the wave I drew is a "plane wave" which means it is very far from the source (antenna) or the moving charges that are causing that wave. If the wave has propagated very far from the source, then the radius of curvature of the closed loop on the magnetic field is so large that the loops are infinitely large. So the answer is, for example, starlight coming from across the galaxy and hitting us consists of electric and magnetic oscillating fields. Those magnetic fields DO form closed loops, but the loop is so large that it approaches infinity and it looks like I drew them in the diagram. Here is a link with a good thread on this: physics.stackexchange.com/questions/562473/magnetic-field-closed-loop-lines-in-an-electromagnetic-wave
51:55 the sine waves resembles DNA. Given that DNA has some electric properties associated with it, do you think there's a correlation with the fact it resembles two sine waves out of phase with each other? Or is it coincidental?
so the relation between electric and magnetic fields is what creates the electricity in a generator right? Basically we spin magnets around a wire to do it. The spinning happens from the steam, from the heat, from the energy of broken bonds in the fuel
In Calc 3 we did the math for Maxwells Equations, and the professor said don't worry about what they mean. You will find out in your engineering courses. I don't remember even talking about them in physics, and in my EMF class my professor said you should already know these, and the test is on Friday. So yeah, I just memorized them, did the math and got my grade for the course. It wasn't until videos like these where I actually understood what they meant. Embarrassing, but true.
@@MathAndScience It would be awesome if you did a series in EE. Signals, Controls, EMF, Power systems etc. I would pay for them from you for sure. I don't pay for anything, but I would pay no doubt.
Yes, I fully agree Sir Jason is a God sent , gifted with an immense talent to bring his knowledge to the layman where EDUCATION was unknown to quantify .Thank you Sir , I can say that Maxwell Equation is hard to understand and you did convince me about the Calculus side of Partial Derivative. Now , I am clear and got what the four equations mean in electricity and magnetism theory. Again , beautiful video and we'll continue to follow more tutorials in Maths and Science Course
Egy kis fázis problémát látok a két szembemenő hullámnál. Ha szembemennek, akkor a pozitív félperiódus először a negatívval találkozik, tehát nem fogják egymást erősíteni. Ellen-fázisú interferencia. Az elektromágnesen hullámoknál, szintén fázis probléma van. 90°-os nak kell lennie a mágnese és az elektromos térerőnél (E-H), hogy terjedő hullám legye. Mechanikai analógia, a hinta, ha mozgásban van, nem lehet a mozgási energia és a helyzeti energia egyszerre zérus, még egy pillanatra sem. Az egyik energia alakul át a másikba. Így lesz hullám. Sincerely, an engineer from Hungary
Love the free educational videos u make but I see the way u gulp after u talk for long and ur expressions say ur throat is very dry so I can advice u to have a bottle water around u 😌 remember to stay hydrated
The At re he has to be done her to a friend, or if it were to be able to get the job of keeping with the other hand, the only way I can see on o the most heavily on the same time, as well as the other side of the road and I, have a feeling it was not a problem with great interest to encouthe neach tree thabe and the second half of the season ❄️ the first time I have to admit that the company is also a good 👍 the same as a kid who are in yij the it was a i the first job and I have to been am of ot o rdeeeeerrrurrrh eerrven eirrvery jeds of ir needs r eueyou with that m ⚠️ big on to was
Hi there Jason. I haven't watched this yet but and interesting point on the Maxwell equations is that no-one actually uses Maxwell's equations in their original form (20 of them). It was Oliver Heaviside who simplified them down to four using his own mathematical methods (Heaviside invented vector calculus and of course the H-step function [Heaviside Step Function]) to simplify them down to the four that are used today. Heaviside predicted the E3 layer (the Kennelly-Heaviside layer [see song in the musical Cats - Journey to the Heaviside layer]). The Telegraph Equations are also Heavisides derivation. At best, the equations are the Maxwell-Heaviside Equations. You guys should check Oliver Heaviside out. Interesting guy and there's nothing like the historicity of first principles. en.wikipedia.org/wiki/Oliver_Heaviside
@@MathAndScience Hi Jason. I would have loved to have has a few beers with Heaviside. Maybe you could include a mention of this amazing man in one of your presentations as what we commonly use which we don't attribute to Heaviside can be traced back to this amazing self-taught engineer. Maybe your colleagues and associates will be surprised to find that they have been using the Heaviside Equations all this time and didn't even know it. Just a thought. Oh, and keep up the great work - you're one helluva tutor. Where were you when I did my Engineering Math???? Not in the UK alas. Oh the wonders of the web!
Best professor in the world. There aren't many teachers who can explain in such a great detail as you sir. You're the best 👌
Many thanks!
I agree with this... he is very talented
The GOAT of teaching and engineering.
Smart
I wish I had such a teacher like him when I was young...He is so passionate to teach! He deserves much more viewers! I refer him all the time to ever want to understand science.
I am enlightened... I became so focused at one point, and lost myself so much in the joy of finally getting what this all meant, that I literally forgot my own existence for a while. You're the ONLY one Mr. Gibson. And you will never be forgotten. Thank you so so so very much.
Wow thank you so very much!
Bow down to you sir. I am not a math guy. I was an average student in my school. The way you teach me. courage to learn again. Thank you so so so so so so much for your effort.
I've never seen such a science related lecture which is incredibly comprehensive like this in less than an hour. How can you integrate the simplest physics and the most advanced/complicated ones into one lecture? How can you REASONABLY link them to make it super understandable to average persons. Amazing! I wish there are more lecturer, teacher, tutor, professor, or whatever terms, like Jason Gibson in the world. Thank you and UA-cam!
Really appreciate your kind words. Thank you!
I am speechless and in awesome struck almost as if an angel "opened my mind" to concepts I NEVER thought I'd be able to comprehend. You are the BEST Teacher EVER. I also learned that SIMPLE[ explanation]=GENIUS.
BRAVO 😮🎉😮🎉
Legendary class Jason, best education ever, thanks much 👍👍
Wow thank you so much!
Why the other profsrs explains like this ...?????
I think this prof is honest teacher ever seen🙏🏼🙏🏼🙏🏼🙏🏼🙏🏼🙏🏼
Hi Sir, for the first time I understand the physical meaning of the Maxwell equations. Thank you.
Thanks so much!
Sir, your channel is undoubtedly one of the most useful channels on UA-cam. Congratulations
Thanks so much! I really appreciate it!
Amazing teacher thanks again
Much appreciated!
thank you profesor this is really inspiring to learn more about the subject
Thanks a lots sir for reeducating us ...i dont fully understand these things during my college time ..but still i graduated with a half cooked knowledge
Wow. Beautifully explained. Appreciate it.
Thanks so much!
you're the best man. better than any teacher or professor. 1000000000/10❤❤❤❤🔥🔥.
Jayson we need not watch your video and give a thumbs up. All the subjects you choose is class of its own.
Wow thank you so much! I really appreciate it!
loved it very much, thank you, great teacher
1 million subscribers! Congratulation! You deserve it!
Thank you so much!!
Thank you for your excellent videos. I am finally beginning to understand some of this stuff. Thank you 😊
You are very welcome!
big words at the end. very wise!
thank you.
Sir, you are amazing! Where were you 20yrs ago when I was struggling through all this stuff😂😊 Thanks for all your efforts. Truly a blessing.
Happy to help!
Happily, I think I finally understand Maxwell's equations thanks to you, after many failures.
But I have a question:
From what I understand, equation number 3 creates equation 4 and vice versa. That is, it is a far field. Are these equations also valid for the near field? because the impedances at near field are different between Electric field and magnetic field.
Always good to come back to your videos sir! Even though I'm long done with topics such as 'entropy' 🤭😂
Nice to see you!
When I built my first AMD dimensional warp generator module..I learnt this @age 7 and it lead me to many fields...your doing ok
At 53:30 the magnetic field has no kind of loops (it looks point straight outward from x-axis).
Is this fields quantized?
This is an EXCELLENT comment. The short answer is the magnetic field lines will always form a closed loop. But the wave I drew is a "plane wave" which means it is very far from the source (antenna) or the moving charges that are causing that wave. If the wave has propagated very far from the source, then the radius of curvature of the closed loop on the magnetic field is so large that the loops are infinitely large. So the answer is, for example, starlight coming from across the galaxy and hitting us consists of electric and magnetic oscillating fields. Those magnetic fields DO form closed loops, but the loop is so large that it approaches infinity and it looks like I drew them in the diagram. Here is a link with a good thread on this: physics.stackexchange.com/questions/562473/magnetic-field-closed-loop-lines-in-an-electromagnetic-wave
51:55 the sine waves resembles DNA. Given that DNA has some electric properties associated with it, do you think there's a correlation with the fact it resembles two sine waves out of phase with each other? Or is it coincidental?
sir , is there any relationship between spin and magnetic field?
amazing video! can you explain to me what the wave equation means?
so the relation between electric and magnetic fields is what creates the electricity in a generator right? Basically we spin magnets around a wire to do it. The spinning happens from the steam, from the heat, from the energy of broken bonds in the fuel
THANK YOU... SIR...!!!
Most welcome!
The best!!
Thank you sir
Thanks teacher
Welcome!
He is from another world
In Calc 3 we did the math for Maxwells Equations, and the professor said don't worry about what they mean. You will find out in your engineering courses. I don't remember even talking about them in physics, and in my EMF class my professor said you should already know these, and the test is on Friday. So yeah, I just memorized them, did the math and got my grade for the course. It wasn't until videos like these where I actually understood what they meant. Embarrassing, but true.
Very happy you enjoyed the video!
@@MathAndScience It would be awesome if you did a series in EE. Signals, Controls, EMF, Power systems etc. I would pay for them from you for sure. I don't pay for anything, but I would pay no doubt.
Yes, I fully agree Sir Jason is a God sent , gifted with an immense talent to bring his knowledge to the layman where EDUCATION was unknown to quantify
.Thank you Sir , I can say that Maxwell Equation is hard to understand and you did convince me about the Calculus side of Partial Derivative. Now , I am clear and got what the four equations mean in electricity and magnetism theory.
Again , beautiful video and we'll continue to follow more tutorials in Maths and Science Course
Love it👏
Thank you!
Universe wants to go to high entropy and lower energetic state correct?
❤️🤝 the best
Egy kis fázis problémát látok a két szembemenő hullámnál. Ha szembemennek, akkor a pozitív félperiódus először a negatívval találkozik, tehát nem fogják egymást erősíteni. Ellen-fázisú interferencia. Az elektromágnesen hullámoknál, szintén fázis probléma van. 90°-os nak kell lennie a mágnese és az elektromos térerőnél (E-H), hogy terjedő hullám legye. Mechanikai analógia, a hinta, ha mozgásban van, nem lehet a mozgási energia és a helyzeti energia egyszerre zérus, még egy pillanatra sem. Az egyik energia alakul át a másikba. Így lesz hullám.
Sincerely, an engineer from Hungary
🙏
Thank you for telling me that Electrons and Protons are waves. I always thought they were small balls
Love the free educational videos u make but I see the way u gulp after u talk for long and ur expressions say ur throat is very dry so I can advice u to have a bottle water around u 😌 remember to stay hydrated
Fair point! It’s mostly because I get excited about some topics :)
@@MathAndScience 😂😂makes sense.. keep up the good work sir🙏
I know enough about probability not to play the lottery! It is around the chance of that scrambled egg going back to the egg state!
1: 26pm4/12/2434
Hi
Hi!
👍🌷❤👍
i'm not lesson you... HAHA, just kidding! i'm will lesson you!
B for Boring
The At re he has to be done her to a friend, or if it were to be able to get the job of keeping with the other hand, the only way I can see on o the most heavily on the same time, as well as the other side of the road and I, have a feeling it was not a problem with great interest to encouthe neach tree thabe and the second half of the season ❄️ the first time I have to admit that the company is also a good 👍 the same as a kid who are in yij the it was a i the first job and I have to been am of ot o rdeeeeerrrurrrh eerrven eirrvery jeds of ir needs r eueyou with that m ⚠️ big on to was
I am the CEO of youtube I give math and science a 29,000,000th place certificate the worst teacher ever my students sleep when they are watching you
Hi there Jason. I haven't watched this yet but and interesting point on the Maxwell equations is that no-one actually uses Maxwell's equations in their original form (20 of them).
It was Oliver Heaviside who simplified them down to four using his own mathematical methods (Heaviside invented vector calculus and of course the H-step function [Heaviside Step Function]) to simplify them down to the four that are used today. Heaviside predicted the E3 layer (the Kennelly-Heaviside layer [see song in the musical Cats - Journey to the Heaviside layer]).
The Telegraph Equations are also Heavisides derivation.
At best, the equations are the Maxwell-Heaviside Equations.
You guys should check Oliver Heaviside out. Interesting guy and there's nothing like the historicity of first principles.
en.wikipedia.org/wiki/Oliver_Heaviside
Wow I didn’t know that. Thanks!
@@MathAndScience Hi Jason. I would have loved to have has a few beers with Heaviside.
Maybe you could include a mention of this amazing man in one of your presentations as what we commonly use which we don't attribute to Heaviside can be traced back to this amazing self-taught engineer.
Maybe your colleagues and associates will be surprised to find that they have been using the Heaviside Equations all this time and didn't even know it. Just a thought.
Oh, and keep up the great work - you're one helluva tutor.
Where were you when I did my Engineering Math????
Not in the UK alas. Oh the wonders of the web!