I'm taking electromagnetism this semester and i often try to explain maxwell equations for first year students. Man, that's actually harder than i thought, you're doing a great job on your videos! Congrats and greetings from Brazil!
As a year 1 electrical engineering student, I’m so happy that I found your channel! Our professor just immediately dives into all the difficult stuff, without giving us any intuition. But you completely take care of that!
Thanks for the refresher, I studied Maxwell from the OU course electromagnetism 30 years ago while I was a technician, and it was one of the best studies in my career life. I was stunned by this beautiful equation and achievement by Maxwell, a union of electricity and magnetism. It washes away complex and difficult understanding via well-designed video. Keep it up!
the method to remember the vectors direction of a positive charge and negative charge is by thinking the repelling and attracting property of charges.............. Basically properties of charges Thanks Mr. Higgs :)
You are very precious Your videos learn a much in no time. Thats a very rare quality that only the bests are capable of. You belong to this class of rare people. Thank you VERY much
The good way of intuitive thinking of divergence is that this operator tells us how laminar the field is inside of an area or whether there are some 'disturbances in the force' in the forms of sources or sinks nearby.
just wanted you to know that the reflections in your glasses look like pink eye shadow. its cute AF. dude your videos are so brilliantly explained and put together. thank you!!!
You are the best more especially on Maxwell's equation explanations ,I will definitely recommend your RUclips channel to my friends. Thanks a lot for this videos.
Thank God! I have found you! I can understand your explanation so much! Please keep doing this kind of video. It really helps. You might be my favorite Physics Vlogger! Where is your video explaining the other 3 Maxwell's equations??
You are simply awesome. Please keep doing this, explaining equation and theorems in a very understandable manner, esp we want more of Maxwell's equations. Thanks a lot bro. 🤗
This series of videos is a well-thought-out explanation of this topic. I always found the concept of an arbitrary enclosed “region of space” and a point charge(s) unsatisfying. 😀 I think a more intuitive example would be to examine Maxwell’s equation from a practical problem. The “region of space” should be a wire or dipole antenna. We should explain how an incoming Electromagnetic field at some frequency, say a typical FM station, impinging on the wire creates an alternating electrical current at the antenna terminals at the same frequency. The incoming E field magnitude and the geometry of how the E field interacts with the antenna determine the signal voltage at the matched antenna terminals.
So, if you were studying electromagnetic fields underwater or inside of metal or anywhere else other than in vacuum, would you replace the ε_0 constant with the permittivity of whatever medium you were in, or would you always use the permittivity of the vacuum? (I would guess that the permittivity of materials would go into this equation and simulate the effects of the electromagnetic fields of all of the atoms(/etc.) in the material as they exist and align with your fields and what not.)
Awesome videos! Really enjoyed the other two on Maxwell eq's. Could you please make a video on quantum spin? Especially what the heck it is and how it creates a magnetic dipole (I hope I got that right). I am a med student with a little background in physics (on which I am passionate) who is currently scratching his head in an attempt to understand MRI. Thanks again for your quality content!
Hii, thank you so much for explaining complex stuff like this so intuitively. You´re really helping loads of us but I was wondering if there´s a video about the 4th equation coming anytime soon. Love your work
when it comes to the point of the region mentioned at 13:18, As a student of mathematics I believe the divergence is not zero, It will be more than the circle assumed at(-2,2)(Assuming the circle represented in video is at (-1,1). I felt the intuition is wrong according to vector algebra. The value will be a negative one, representing its as convergence
Your videos are so useful for me... U made understanding physics easy for me.. It's my request to you to make a video on the Maxwell's 4th equation... Hope u will soon make a video about it..
Hi Parth! Thank you very much for the overall presentation of the information. I found out this long ago that the poet only asks to get his head into the heavens. It is the logician who seeks to get the heavens into his head. And it is his head that splits, but so many things are clear with your videos. Now I will start studying mathematical analysis, that is, integral and differential calculus. What would you suggest for a beginner like me who wants to become familiar with modern theories of physics which is a dream of mine from a very young age. I am an enthusiast by the way. From the easiest I mean to the hardest!
HI Parth. I was kind of waiting to see which approach you would take for explaining the 4th equation. You could have just simplified this right from the beginning. In flat space time relativity, the four Maxwell equations collapse to two.
Incredible. You gave me a better description about "divergence" operator. But in your Maxwell equation series you haven't talk about "curl". Can you please do a vedio describing about the curl.
Great content dude! I have been following for awhile and I love your intuitive explanations of complex equations and how they work! You should starting doing explanations of equations from mechanics too if possible!
Hey Parth, could you tell me which software/application do you use to make your videos? This sort of hand-written translucid half screen is really nice, I am looking for something like that. Thanks in advance, Cheers!
13:31 How do you know for sure from the graphic that the flow in is equal to the flow out from that region? Is the fact that "vectors flow in and also out from the other side" as you say (aproximately) enough to prove the divergence is zero? The vectors out could be larger than those coming in, or the opposite.
But the electric field generated by a point charge is such that this is not the case - the vectors pointing in do happen to exactly balance the vectors pointing out. There are other mathematical ways to calculate this too, for a (1/r^2) field, to confirm to yourself that this is true.
If you wanna do it the the hard way, take a point charge. Take a loop anywhere without including it, and integrate the d(phi) . If not, simply apply gauss law.😁
kudos to you Parth with your vivid explanation of quantum mechanics. I have watched a few videos of you and they are awesome. Please i would like to know whether you do tutorial on MATLAB programming.
What happens if one or the other of E and B is zero? Do you end up with only an electric field, or only a magnetic field? Another question: what happens if they both are non-zero but neither of them moving? Many thanks. Engin Coruslu
Just being referred to as "big guns" by Parth made the time spent worthwhile
Thanks for contributing to this video man! It was a pleasure to work with you, here's to more great videos in the future :D
@@ParthGChannel Loved ur content Sir🙏🙏
@@ParthGChannel are you Punjabi
@@ParthGChannel paaji sab changa si .
Parth just keeps that hair to show us the electrostatic effect.
i clicked on this video because his hair was blown, after the video my mind is blown 🤯
Hello fellow emoji brotha
Nice afro dude. Lol
😂
❤HAHAHA
I'm taking electromagnetism this semester and i often try to explain maxwell equations for first year students. Man, that's actually harder than i thought, you're doing a great job on your videos! Congrats and greetings from Brazil!
As a year 1 electrical engineering student, I’m so happy that I found your channel! Our professor just immediately dives into all the difficult stuff, without giving us any intuition. But you completely take care of that!
Parth rocking that 17th century physicist looks, just need a beard
He grew the beard because of your comment😳
I follow your Maxwell equations and I'm waiting for the fourth equation .. thanks for videos ❤
Wow! The coin finally drops about the fundamental difference between a magnetic field and an electric field. Thank-you sincerely.
Thank you so much! Would love to see a video on the fourth equation
bro let's just appreciate the fact he took the time out of his day to draw that many little arrows for us.
parth when will you upload the next Maxwell equation?
Thanks for the refresher, I studied Maxwell from the OU course electromagnetism 30 years ago while I was a technician, and it was one of the best studies in my career life. I was stunned by this beautiful equation and achievement by Maxwell, a union of electricity and magnetism. It washes away complex and difficult understanding via well-designed video. Keep it up!
This is perfect. As an electrician who was bad in school and wants to understand Gauss' law this finaly made sense to me.
1:11 when I ask my students to define a term
:D hahahah y u gotta do me dirty like this
@@ParthGChannel 😂
Bruhhh i am the student
the method to remember the vectors direction of a positive charge and negative charge is by thinking the repelling and attracting property of charges.............. Basically properties of charges
Thanks Mr. Higgs :)
Please make videos on curl of electric and magnetic field as well, those remaining Maxwell's equations 🙂
Loved your videos❤️
Man I love your accent, very soothing
You explained it better than my professor, keep making videos like this are really awesome :)
That's a big compliment, thanks for watching!
@@ParthGChannel hey ? will you make a video for the fourth equation?
@@Praneshpm23 i'm in the need of it too
Left a question on your Q entanglement vid thought this would be a better way to get it asked. Love your stuff so far and congrats for 46 k
The way you teach seems to be the top faculty in the world
Please bring the fourth video of Maxwell soon. Love your work
You are very precious
Your videos learn a much in no time. Thats a very rare quality that only the bests are capable of. You belong to this class of rare people.
Thank you VERY much
best explanation I have seen of electric and magnetic fields, thx Parth
Very intuitive, well done you two!
The right video at the right moment I need it. Perfect!
This vídeo is awesome, Thank you! -Brazil here.
I was hoping he would at some point in the lecture mention his new anti-gravity hair gel. But I guess Gauss Law will have to do.
It feels awesome to understand all these Maxwell equations, thank you and keep it up!
Great video! Accent? No comments! This is how I explain to kids as well when I volunteer/tutor.
Hey. Finally we got the video. Thanks parth G.
This was so good . I’m super emotional rn. Thank you I’ve been stuck for so long
wonderful explanation... all of the Maxwell equations videos..thank you so much
Fantastic playlist - when will we see the 4th equation?
The good way of intuitive thinking of divergence is that this operator tells us how laminar the field is inside of an area or whether there are some 'disturbances in the force' in the forms of sources or sinks nearby.
just wanted you to know that the reflections in your glasses look like pink eye shadow. its cute AF. dude your videos are so brilliantly explained and put together. thank you!!!
Please make an intuitive video on the concept of Tensors
You are the best more especially on Maxwell's equation explanations ,I will definitely recommend your RUclips channel to my friends. Thanks a lot for this videos.
Parth looks like a pop singer from the 90's😂
Nah, Richard Ayoade
Thank God! I have found you! I can understand your explanation so much! Please keep doing this kind of video. It really helps. You might be my favorite Physics Vlogger! Where is your video explaining the other 3 Maxwell's equations??
There is something magical in your lectures ....i am a big fan of you . May you stay blessed and healthy always !
Awesome video.. concepts cleared!
Beautiful lesson and demonstration.Thank ❤you very much
Great illustration of the Divergence !
Thank you dear Parth !
Very well explained!!
Thanks for making the video Parth. It helps to see an overview haven't had it yet.
Beautiful Parth. Very good explanation of Gauss Law and divergence concept.
Amazingly explained!
very clear explanations!!!
Also parth,I love your explanations .Looking forward to the fourth equation
You are simply awesome.
Please keep doing this, explaining equation and theorems in a very understandable manner, esp we want more of Maxwell's equations.
Thanks a lot bro. 🤗
amazing video . please the last one of maxwell equation
finally 3rd part came.
really thank you .. and my compliments for the really good, easy and clear explanation.
next video: magnetic monopoles and Dirac rod
BTW: great music
This series of videos is a well-thought-out explanation of this topic. I always found the concept of an arbitrary enclosed “region of space” and a point charge(s) unsatisfying.
😀
I think a more intuitive example would be to examine Maxwell’s equation from a practical problem. The “region of space” should be a wire or dipole antenna. We should explain how an incoming Electromagnetic field at some frequency, say a typical FM station, impinging on the wire creates an alternating electrical current at the antenna terminals at the same frequency. The incoming E field magnitude and the geometry of how the E field interacts with the antenna determine the signal voltage at the matched antenna terminals.
So, if you were studying electromagnetic fields underwater or inside of metal or anywhere else other than in vacuum, would you replace the ε_0 constant with the permittivity of whatever medium you were in, or would you always use the permittivity of the vacuum? (I would guess that the permittivity of materials would go into this equation and simulate the effects of the electromagnetic fields of all of the atoms(/etc.) in the material as they exist and align with your fields and what not.)
I' ve been waiting for this video ever since the last one got out!!!😋😋😋😋
Best explanation ever. keep going
Helping engineering students out tons. Also, you have really great hair wow!
Awesome videos! Really enjoyed the other two on Maxwell eq's. Could you please make a video on quantum spin? Especially what the heck it is and how it creates a magnetic dipole (I hope I got that right). I am a med student with a little background in physics (on which I am passionate) who is currently scratching his head in an attempt to understand MRI. Thanks again for your quality content!
Please make a series of video about grad, divergence,curl with examples
For sure, that would be wading into maths territory but I think that would be fun :)
@@ParthGChannel hum
Really cool explanation.
Hii, thank you so much for explaining complex stuff like this so intuitively. You´re really helping loads of us but I was wondering if there´s a video about the 4th equation coming anytime soon. Love your work
when it comes to the point of the region mentioned at 13:18, As a student of mathematics I believe the divergence is not zero, It will be more than the circle assumed at(-2,2)(Assuming the circle represented in video is at (-1,1). I felt the intuition is wrong according to vector algebra. The value will be a negative one, representing its as convergence
Your videos are so useful for me... U made understanding physics easy for me.. It's my request to you to make a video on the Maxwell's 4th equation... Hope u will soon make a video about it..
thank you so much for making this video!!!! I love these visual explanations!
Well thanks for explaining all these cool equations you explained it well and i enjoyed them. When video for 4th equation is coming?
Hi Parth thanks a lot for explaining these concepts easily. Can you tell us when 4th Equation video will be available?
Hi Parth! Thank you very much for the overall presentation of the information. I found out this long ago that the poet only asks to get his head into the heavens. It is the logician who seeks to get the heavens into his head. And it is his head that splits, but so many things are clear with your videos. Now I will start studying mathematical analysis, that is, integral and differential calculus. What would you suggest for a beginner like me who wants to become familiar with modern theories of physics which is a dream of mine from a very young age. I am an enthusiast by the way. From the easiest I mean to the hardest!
You're extraordinary
Thank you!
HI Parth. I was kind of waiting to see which approach you would take for explaining the 4th equation. You could have just simplified this right from the beginning. In flat space time relativity, the four Maxwell equations collapse to two.
Incredible. You gave me a better description about "divergence" operator. But in your Maxwell equation series you haven't talk about "curl". Can you please do a vedio describing about the curl.
Brilliant video sir
It was great
I enjoyed a lot and understood everything
Great content dude! I have been following for awhile and I love your intuitive explanations of complex equations and how they work! You should starting doing explanations of equations from mechanics too if possible!
I have understood previous Maxwell equation s said by u easily
Need the fourth one now!
I understand your videos easily you have gave me a lot of information love you bro❤️❤️
Great content!!
Hi Parth very impressed by these videos would you mind making another videos explaining the science behind Quantum computers... Thankyou
I enjoyed the lecture! Also great explanation by your guest! 😊
Sir, Your videos are really awesome. Could you please upload explanation of the Maxwell equation in both differential and integral form.
THANK YOU, SIR!
Wow , very well explained
Please make video on Maxwell's 4th equation
Hey Parth, What do you use to make those amazing illustrations?
Hi Rohan, thanks for the compliment! I draw them all on a tablet, then edit them in to my video in my editing software (Premiere Pro).
@@ParthGChannel Nice!
yo bro can you put the last eqn fast.....can't wait to learn it....your explanation is very good👍🏻👍🏻
Maxwell was brilliant.
Amazing video! Thank you very much!
Hey Parth, could you tell me which software/application do you use to make your videos? This sort of hand-written translucid half screen is really nice, I am looking for something like that. Thanks in advance,
Cheers!
13:31 How do you know for sure from the graphic that the flow in is equal to the flow out from that region? Is the fact that "vectors flow in and also out from the other side" as you say (aproximately) enough to prove the divergence is zero? The vectors out could be larger than those coming in, or the opposite.
But the electric field generated by a point charge is such that this is not the case - the vectors pointing in do happen to exactly balance the vectors pointing out. There are other mathematical ways to calculate this too, for a (1/r^2) field, to confirm to yourself that this is true.
If you wanna do it the the hard way, take a point charge. Take a loop anywhere without including it, and integrate the d(phi) .
If not, simply apply gauss law.😁
Please make a video on special and general theory of relatvity
Outstanding 👍
Hey Parth, ask your parents about what Indian State do they hail from. Would love to know. And obviously, thanks for the video 😍!!
you're a legend thank you!
I love this! I subscribed and I might start binge-watching your content. Thank you for this!! Also Higgsino Physics!!! You both are awesome!
Good video. Thanks.
can you make a more detailed and a higher level video about the maxwell's equations sometime in future? thanx :)
kudos to you Parth with your vivid explanation of quantum mechanics. I have watched a few videos of you and they are awesome. Please i would like to know whether you do tutorial on MATLAB programming.
GREAT JOB!
Hi , I have my exam of electromagtics in september and this videos are great to understand It better☺️,thanks
that was cool, thanks 👍
What happens if one or the other of E and B is zero? Do you end up with only an electric field, or only a magnetic field? Another question: what happens if they both are non-zero but neither of them moving? Many thanks. Engin Coruslu